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75<h1><a href="sheets_v4.html">Google Sheets API</a> . <a href="sheets_v4.spreadsheets.html">spreadsheets</a></h1>
76<h2>Instance Methods</h2>
77<p class="toc_element">
Bu Sun Kim715bd7f2019-06-14 16:50:42 -070078 <code><a href="sheets_v4.spreadsheets.developerMetadata.html">developerMetadata()</a></code>
79</p>
80<p class="firstline">Returns the developerMetadata Resource.</p>
81
82<p class="toc_element">
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -070083 <code><a href="sheets_v4.spreadsheets.sheets.html">sheets()</a></code>
84</p>
85<p class="firstline">Returns the sheets Resource.</p>
86
87<p class="toc_element">
88 <code><a href="sheets_v4.spreadsheets.values.html">values()</a></code>
89</p>
90<p class="firstline">Returns the values Resource.</p>
91
92<p class="toc_element">
Dan O'Mearadd494642020-05-01 07:42:23 -070093 <code><a href="#batchUpdate">batchUpdate(spreadsheetId, body=None, x__xgafv=None)</a></code></p>
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070094<p class="firstline">Applies one or more updates to the spreadsheet. Each request is validated before being applied. If any request is not valid then the entire request will fail and nothing will be applied. Some requests have replies to give you some information about how they are applied. The replies will mirror the requests. For example, if you applied 4 updates and the 3rd one had a reply, then the response will have 2 empty replies, the actual reply, and another empty reply, in that order. Due to the collaborative nature of spreadsheets, it is not guaranteed that the spreadsheet will reflect exactly your changes after this completes, however it is guaranteed that the updates in the request will be applied together atomically. Your changes may be altered with respect to collaborator changes. If there are no collaborators, the spreadsheet should reflect your changes.</p>
95<p class="toc_element">
96 <code><a href="#close">close()</a></code></p>
97<p class="firstline">Close httplib2 connections.</p>
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -070098<p class="toc_element">
Dan O'Mearadd494642020-05-01 07:42:23 -070099 <code><a href="#create">create(body=None, x__xgafv=None)</a></code></p>
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -0700100<p class="firstline">Creates a spreadsheet, returning the newly created spreadsheet.</p>
101<p class="toc_element">
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700102 <code><a href="#get">get(spreadsheetId, ranges=None, includeGridData=None, x__xgafv=None)</a></code></p>
Dmitry Frenkel3e17f892020-10-06 16:46:05 -0700103<p class="firstline">Returns the spreadsheet at the given ID. The caller must specify the spreadsheet ID. By default, data within grids will not be returned. You can include grid data one of two ways: * Specify a field mask listing your desired fields using the `fields` URL parameter in HTTP * Set the includeGridData URL parameter to true. If a field mask is set, the `includeGridData` parameter is ignored For large spreadsheets, it is recommended to retrieve only the specific fields of the spreadsheet that you want. To retrieve only subsets of the spreadsheet, use the ranges URL parameter. Multiple ranges can be specified. Limiting the range will return only the portions of the spreadsheet that intersect the requested ranges. Ranges are specified using A1 notation.</p>
Bu Sun Kim715bd7f2019-06-14 16:50:42 -0700104<p class="toc_element">
Dan O'Mearadd494642020-05-01 07:42:23 -0700105 <code><a href="#getByDataFilter">getByDataFilter(spreadsheetId, body=None, x__xgafv=None)</a></code></p>
Dmitry Frenkel3e17f892020-10-06 16:46:05 -0700106<p class="firstline">Returns the spreadsheet at the given ID. The caller must specify the spreadsheet ID. This method differs from GetSpreadsheet in that it allows selecting which subsets of spreadsheet data to return by specifying a dataFilters parameter. Multiple DataFilters can be specified. Specifying one or more data filters will return the portions of the spreadsheet that intersect ranges matched by any of the filters. By default, data within grids will not be returned. You can include grid data one of two ways: * Specify a field mask listing your desired fields using the `fields` URL parameter in HTTP * Set the includeGridData parameter to true. If a field mask is set, the `includeGridData` parameter is ignored For large spreadsheets, it is recommended to retrieve only the specific fields of the spreadsheet that you want.</p>
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -0700107<h3>Method Details</h3>
108<div class="method">
Dan O'Mearadd494642020-05-01 07:42:23 -0700109 <code class="details" id="batchUpdate">batchUpdate(spreadsheetId, body=None, x__xgafv=None)</code>
Dmitry Frenkel3e17f892020-10-06 16:46:05 -0700110 <pre>Applies one or more updates to the spreadsheet. Each request is validated before being applied. If any request is not valid then the entire request will fail and nothing will be applied. Some requests have replies to give you some information about how they are applied. The replies will mirror the requests. For example, if you applied 4 updates and the 3rd one had a reply, then the response will have 2 empty replies, the actual reply, and another empty reply, in that order. Due to the collaborative nature of spreadsheets, it is not guaranteed that the spreadsheet will reflect exactly your changes after this completes, however it is guaranteed that the updates in the request will be applied together atomically. Your changes may be altered with respect to collaborator changes. If there are no collaborators, the spreadsheet should reflect your changes.
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -0700111
112Args:
113 spreadsheetId: string, The spreadsheet to apply the updates to. (required)
Dan O'Mearadd494642020-05-01 07:42:23 -0700114 body: object, The request body.
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -0700115 The object takes the form of:
116
117{ # The request for updating any aspect of a spreadsheet.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -0700118 &quot;requests&quot;: [ # A list of updates to apply to the spreadsheet. Requests will be applied in the order they are specified. If any request is not valid, no requests will be applied.
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -0700119 { # A single kind of update to apply to a spreadsheet.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800120 &quot;randomizeRange&quot;: { # Randomizes the order of the rows in a range. # Randomizes the order of the rows in a range.
121 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range to randomize.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800122 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700123 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
124 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800125 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700126 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700127 },
128 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800129 &quot;deleteDataSource&quot;: { # Deletes a data source. The request also deletes the associated data source sheet, and unlinks all associated data source objects. # Deletes a data source.
130 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source to delete.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700131 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800132 &quot;addDimensionGroup&quot;: { # Creates a group over the specified range. If the requested range is a superset of the range of an existing group G, then the depth of G is incremented and this new group G&#x27; has the depth of that group. For example, a group [C:D, depth 1] + [B:E] results in groups [B:E, depth 1] and [C:D, depth 2]. If the requested range is a subset of the range of an existing group G, then the depth of the new group G&#x27; becomes one greater than the depth of G. For example, a group [B:E, depth 1] + [C:D] results in groups [B:E, depth 1] and [C:D, depth 2]. If the requested range starts before and ends within, or starts within and ends after, the range of an existing group G, then the range of the existing group G becomes the union of the ranges, and the new group G&#x27; has depth one greater than the depth of G and range as the intersection of the ranges. For example, a group [B:D, depth 1] + [C:E] results in groups [B:E, depth 1] and [C:D, depth 2]. # Creates a group over the specified range.
133 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which to create a group.
134 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
135 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
136 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
137 &quot;sheetId&quot;: 42, # The sheet this span is on.
138 },
139 },
140 &quot;mergeCells&quot;: { # Merges all cells in the range. # Merges cells together.
141 &quot;mergeType&quot;: &quot;A String&quot;, # How the cells should be merged.
142 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range of cells to merge.
143 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
144 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
145 &quot;sheetId&quot;: 42, # The sheet this range is on.
146 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
147 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700148 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800149 },
150 &quot;sortRange&quot;: { # Sorts data in rows based on a sort order per column. # Sorts data in a range.
151 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
152 { # A sort order associated with a specific column or row.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800153 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
154 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
155 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800156 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
157 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
158 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
159 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
160 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
161 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
162 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
163 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
164 },
165 },
166 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
167 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
168 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
169 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
170 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
171 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
172 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
173 },
174 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800175 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800176 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
177 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800178 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
179 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800180 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800181 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
182 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
183 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
184 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
185 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
186 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
187 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800188 },
189 ],
190 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range to sort.
191 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700192 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
193 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800194 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700195 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700196 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700197 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800198 &quot;updateSheetProperties&quot;: { # Updates properties of the sheet with the specified sheetId. # Updates a sheet&#x27;s properties.
199 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `properties` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
200 &quot;properties&quot;: { # Properties of a sheet. # The properties to update.
201 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
202 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
203 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
204 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
205 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
206 &quot;rowCount&quot;: 42, # The number of rows in the grid.
207 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
208 &quot;columnCount&quot;: 42, # The number of columns in the grid.
209 },
210 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
211 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
212 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
213 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
214 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
215 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
216 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700217 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800218 },
219 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
220 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
221 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
222 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
223 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
224 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
225 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
226 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
227 },
228 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
229 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
230 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
231 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
232 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
233 { # A column in a data source.
234 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
235 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
236 },
237 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
238 },
239 ],
240 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
241 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
242 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
243 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
244 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
245 },
246 },
247 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
248 },
249 },
250 &quot;updateConditionalFormatRule&quot;: { # Updates a conditional format rule at the given index, or moves a conditional format rule to another index. # Updates an existing conditional format rule.
251 &quot;index&quot;: 42, # The zero-based index of the rule that should be replaced or moved.
252 &quot;rule&quot;: { # A rule describing a conditional format. # The rule that should replace the rule at the given index.
253 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
254 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800255 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700256 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
257 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800258 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800259 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
260 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800261 ],
262 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
263 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800264 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
265 { # The value of the condition.
266 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
267 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
268 },
269 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800270 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800271 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800272 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
273 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
274 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
275 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
276 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
277 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
278 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
279 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
280 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
281 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
282 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
283 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
284 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800285 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800286 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800287 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
288 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800289 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
290 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800291 },
292 },
293 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
294 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
295 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
296 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
297 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
298 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
299 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
300 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
301 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
302 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
303 },
304 },
305 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800306 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
307 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800308 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
309 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800310 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800311 },
312 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
313 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
314 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
315 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800316 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800317 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
318 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
319 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
320 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
321 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
322 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800323 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800324 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
325 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
326 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
327 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
328 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800329 },
330 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800331 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
332 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
333 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
334 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
335 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
336 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
337 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
338 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
339 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
340 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700341 },
342 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800343 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
344 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
345 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
346 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
347 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800348 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700349 },
350 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800351 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
352 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
353 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
354 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
355 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
356 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
357 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
358 },
359 },
360 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
361 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
362 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
363 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
364 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
365 },
366 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
367 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
368 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
369 &quot;bold&quot;: True or False, # True if the text is bold.
370 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
371 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
372 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
373 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
374 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
375 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
376 },
377 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
378 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
379 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
380 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
381 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
382 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
383 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
384 },
385 },
386 &quot;italic&quot;: True or False, # True if the text is italicized.
387 &quot;underline&quot;: True or False, # True if the text is underlined.
388 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
389 &quot;fontSize&quot;: 42, # The size of the font.
390 },
391 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
392 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
393 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
394 },
395 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
396 &quot;bottom&quot;: 42, # The bottom padding of the cell.
397 &quot;top&quot;: 42, # The top padding of the cell.
398 &quot;right&quot;: 42, # The right padding of the cell.
399 &quot;left&quot;: 42, # The left padding of the cell.
400 },
401 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
402 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
403 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
404 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
405 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
406 },
407 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
408 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700409 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800410 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
411 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
412 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
413 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
414 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
415 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
416 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
417 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
418 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
419 },
420 },
421 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
422 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
423 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
424 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
425 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
426 },
427 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
428 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
429 },
430 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
431 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
432 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
433 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
434 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
435 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
436 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
437 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
438 },
439 },
440 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
441 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
442 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
443 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
444 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
445 },
446 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
447 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
448 },
449 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
450 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
451 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
452 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
453 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
454 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
455 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
456 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
457 },
458 },
459 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
460 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
461 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
462 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
463 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
464 },
465 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
466 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
467 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800468 },
469 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800470 &quot;sheetId&quot;: 42, # The sheet of the rule to move. Required if new_index is set, unused otherwise.
471 &quot;newIndex&quot;: 42, # The zero-based new index the rule should end up at.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800472 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800473 &quot;deleteEmbeddedObject&quot;: { # Deletes the embedded object with the given ID. # Deletes an embedded object (e.g, chart, image) in a sheet.
474 &quot;objectId&quot;: 42, # The ID of the embedded object to delete.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700475 },
476 &quot;updateBorders&quot;: { # Updates the borders of a range. If a field is not set in the request, that means the border remains as-is. For example, with two subsequent UpdateBordersRequest: 1. range: A1:A5 `{ top: RED, bottom: WHITE }` 2. range: A1:A5 `{ left: BLUE }` That would result in A1:A5 having a borders of `{ top: RED, bottom: WHITE, left: BLUE }`. If you want to clear a border, explicitly set the style to NONE. # Updates the borders in a range of cells.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800477 &quot;bottom&quot;: { # A border along a cell. # The border to put at the bottom of the range.
478 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
479 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700480 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800481 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700482 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800483 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
484 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800485 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
486 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700487 },
488 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700489 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800490 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
491 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800492 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
493 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700494 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700495 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800496 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range whose borders should be updated.
497 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800498 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
499 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800500 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800501 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
502 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800503 &quot;top&quot;: { # A border along a cell. # The border to put at the top of the range.
504 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
505 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700506 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800507 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700508 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800509 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
510 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700511 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
512 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
513 },
514 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700515 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800516 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
517 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700518 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
519 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700520 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800521 },
522 &quot;right&quot;: { # A border along a cell. # The border to put at the right of the range.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800523 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
524 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800525 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800526 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800527 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800528 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
529 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800530 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
531 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800532 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800533 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800534 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800535 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
536 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800537 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
538 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700539 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800540 },
541 &quot;innerVertical&quot;: { # A border along a cell. # The vertical border to put within the range.
542 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700543 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800544 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
545 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
546 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
547 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
548 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
549 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
550 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
551 },
552 },
553 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
554 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
555 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
556 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
557 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700558 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800559 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800560 &quot;innerHorizontal&quot;: { # A border along a cell. # The horizontal border to put within the range.
561 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
562 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
563 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
564 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
565 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
566 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
567 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
568 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
569 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
570 },
571 },
572 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
573 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
574 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
575 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
576 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
577 },
578 },
579 &quot;left&quot;: { # A border along a cell. # The border to put at the left of the range.
580 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
581 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
582 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
583 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
584 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
585 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
586 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
587 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
588 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
589 },
590 },
591 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
592 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
593 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
594 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
595 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
596 },
597 },
598 },
599 &quot;deleteSheet&quot;: { # Deletes the requested sheet. # Deletes a sheet.
600 &quot;sheetId&quot;: 42, # The ID of the sheet to delete. If the sheet is of SheetType.DATA_SOURCE type, the associated DataSource is also deleted.
601 },
602 &quot;insertRange&quot;: { # Inserts cells into a range, shifting the existing cells over or down. # Inserts new cells in a sheet, shifting the existing cells.
603 &quot;shiftDimension&quot;: &quot;A String&quot;, # The dimension which will be shifted when inserting cells. If ROWS, existing cells will be shifted down. If COLUMNS, existing cells will be shifted right.
604 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range to insert new cells into.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800605 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800606 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
607 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800608 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800609 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
610 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800611 },
612 &quot;updateProtectedRange&quot;: { # Updates an existing protected range with the specified protectedRangeId. # Updates a protected range.
613 &quot;protectedRange&quot;: { # A protected range. # The protected range to update with the new properties.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800614 &quot;requestingUserCanEdit&quot;: True or False, # True if the user who requested this protected range can edit the protected area. This field is read-only.
615 &quot;protectedRangeId&quot;: 42, # The ID of the protected range. This field is read-only.
616 &quot;description&quot;: &quot;A String&quot;, # The description of this protected range.
617 &quot;warningOnly&quot;: True or False, # True if this protected range will show a warning when editing. Warning-based protection means that every user can edit data in the protected range, except editing will prompt a warning asking the user to confirm the edit. When writing: if this field is true, then editors is ignored. Additionally, if this field is changed from true to false and the `editors` field is not set (nor included in the field mask), then the editors will be set to all the editors in the document.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800618 &quot;editors&quot;: { # The editors of a protected range. # The users and groups with edit access to the protected range. This field is only visible to users with edit access to the protected range and the document. Editors are not supported with warning_only protection.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800619 &quot;domainUsersCanEdit&quot;: True or False, # True if anyone in the document&#x27;s domain has edit access to the protected range. Domain protection is only supported on documents within a domain.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800620 &quot;groups&quot;: [ # The email addresses of groups with edit access to the protected range.
621 &quot;A String&quot;,
622 ],
623 &quot;users&quot;: [ # The email addresses of users with edit access to the protected range.
624 &quot;A String&quot;,
625 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800626 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800627 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this protected range is backed by, if any. When writing, only one of range or named_range_id may be set.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800628 &quot;unprotectedRanges&quot;: [ # The list of unprotected ranges within a protected sheet. Unprotected ranges are only supported on protected sheets.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700629 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800630 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700631 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
632 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800633 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700634 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700635 },
636 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800637 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range that is being protected. The range may be fully unbounded, in which case this is considered a protected sheet. When writing, only one of range or named_range_id may be set.
638 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
639 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
640 &quot;sheetId&quot;: 42, # The sheet this range is on.
641 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
642 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
643 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700644 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800645 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `protectedRange` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700646 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800647 &quot;deleteDimensionGroup&quot;: { # Deletes a group over the specified range by decrementing the depth of the dimensions in the range. For example, assume the sheet has a depth-1 group over B:E and a depth-2 group over C:D. Deleting a group over D:E leaves the sheet with a depth-1 group over B:D and a depth-2 group over C:C. # Deletes a group over the specified range.
648 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range of the group to be deleted.
649 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
650 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
651 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
652 &quot;sheetId&quot;: 42, # The sheet this span is on.
653 },
654 },
655 &quot;addConditionalFormatRule&quot;: { # Adds a new conditional format rule at the given index. All subsequent rules&#x27; indexes are incremented. # Adds a new conditional format rule.
656 &quot;rule&quot;: { # A rule describing a conditional format. # The rule to add.
657 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
658 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
659 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
660 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
661 &quot;sheetId&quot;: 42, # The sheet this range is on.
662 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
663 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700664 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800665 ],
666 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
667 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
668 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
669 { # The value of the condition.
670 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
671 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
Bu Sun Kim673ec5c2020-11-16 11:05:03 -0700672 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800673 ],
674 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800675 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800676 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
677 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
678 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
679 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
680 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
681 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
682 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
683 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
684 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
685 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
686 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
687 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
688 },
689 },
690 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
691 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
692 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
693 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
694 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
695 },
696 },
697 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
698 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
699 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
700 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
701 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
702 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
703 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
704 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
705 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
706 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
707 },
708 },
709 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
710 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
711 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
712 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
713 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
714 },
715 },
716 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
717 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
718 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
719 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
720 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
721 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
722 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
723 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
724 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
725 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
726 },
727 },
728 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
729 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
730 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
731 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
732 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
733 },
734 },
735 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
736 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
737 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
738 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
739 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
740 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
741 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
742 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
743 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
744 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
745 },
746 },
747 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
748 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
749 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
750 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
751 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
752 },
753 },
754 },
755 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
756 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
757 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
758 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
759 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
760 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
761 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
762 },
763 },
764 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
765 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
766 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
767 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
768 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
769 },
770 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
771 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
772 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
773 &quot;bold&quot;: True or False, # True if the text is bold.
774 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
775 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
776 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
777 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
778 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
779 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
780 },
781 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
782 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
783 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
784 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
785 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
786 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
787 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
788 },
789 },
790 &quot;italic&quot;: True or False, # True if the text is italicized.
791 &quot;underline&quot;: True or False, # True if the text is underlined.
792 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
793 &quot;fontSize&quot;: 42, # The size of the font.
794 },
795 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
796 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
797 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
798 },
799 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
800 &quot;bottom&quot;: 42, # The bottom padding of the cell.
801 &quot;top&quot;: 42, # The top padding of the cell.
802 &quot;right&quot;: 42, # The right padding of the cell.
803 &quot;left&quot;: 42, # The left padding of the cell.
804 },
805 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
806 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
807 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
808 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
809 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
810 },
811 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
812 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800813 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800814 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
815 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
816 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
817 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
818 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
819 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
820 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
821 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
822 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
823 },
824 },
825 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
826 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
827 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
828 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
829 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
830 },
831 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
832 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
833 },
834 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
835 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
836 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
837 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
838 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
839 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
840 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
841 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
842 },
843 },
844 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
845 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
846 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
847 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
848 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
849 },
850 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
851 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
852 },
853 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
854 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
855 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
856 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
857 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
858 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
859 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
860 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
861 },
862 },
863 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
864 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
865 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
866 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
867 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
868 },
869 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
870 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
871 },
872 },
873 },
874 &quot;index&quot;: 42, # The zero-based index where the rule should be inserted.
875 },
876 &quot;updateChartSpec&quot;: { # Updates a chart&#x27;s specifications. (This does not move or resize a chart. To move or resize a chart, use UpdateEmbeddedObjectPositionRequest.) # Updates a chart&#x27;s specifications.
877 &quot;chartId&quot;: 42, # The ID of the chart to update.
878 &quot;spec&quot;: { # The specifications of a chart. # The specification to apply to the chart.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800879 &quot;subtitleTextPosition&quot;: { # Position settings for text. # The subtitle text position. This field is optional.
880 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
881 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800882 &quot;orgChart&quot;: { # An org chart. Org charts require a unique set of labels in labels and may optionally include parent_labels and tooltips. parent_labels contain, for each node, the label identifying the parent node. tooltips contain, for each node, an optional tooltip. For example, to describe an OrgChart with Alice as the CEO, Bob as the President (reporting to Alice) and Cathy as VP of Sales (also reporting to Alice), have labels contain &quot;Alice&quot;, &quot;Bob&quot;, &quot;Cathy&quot;, parent_labels contain &quot;&quot;, &quot;Alice&quot;, &quot;Alice&quot; and tooltips contain &quot;CEO&quot;, &quot;President&quot;, &quot;VP Sales&quot;. # An org chart specification.
883 &quot;nodeSize&quot;: &quot;A String&quot;, # The size of the org chart nodes.
884 &quot;nodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the org chart nodes.
885 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
886 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
887 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
888 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800889 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800890 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data containing the label of the parent for the corresponding node. A blank value indicates that the node has no parent and is a top-level node. This field is optional.
891 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800892 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
893 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
894 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
895 },
896 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
897 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800898 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800899 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800900 },
901 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800902 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
903 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
904 },
905 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
906 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
907 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
908 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800909 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
910 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800911 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800912 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
913 },
914 ],
915 },
916 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800917 &quot;selectedNodeColorStyle&quot;: { # A color value. # The color of the selected org chart nodes. If selected_node_color is also set, this field takes precedence.
918 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
919 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
920 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
921 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
922 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
923 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
924 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800925 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800926 &quot;selectedNodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the selected org chart nodes.
927 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
928 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
929 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
930 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
931 },
932 &quot;labels&quot;: { # The data included in a domain or series. # The data containing the labels for all the nodes in the chart. Labels must be unique.
933 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800934 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
935 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
936 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
937 },
938 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
939 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800940 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800941 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800942 },
943 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800944 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
945 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
946 },
947 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
948 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
949 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
950 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -0800951 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
952 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -0800953 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
954 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
955 },
956 ],
957 },
958 },
959 &quot;tooltips&quot;: { # The data included in a domain or series. # The data containing the tooltip for the corresponding node. A blank value results in no tooltip being displayed for the node. This field is optional.
960 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
961 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
962 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
963 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
964 },
965 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
966 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
967 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
968 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
969 },
970 },
971 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
972 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
973 },
974 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
975 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
976 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
977 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
978 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
979 &quot;sheetId&quot;: 42, # The sheet this range is on.
980 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
981 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
982 },
983 ],
984 },
985 },
986 &quot;nodeColorStyle&quot;: { # A color value. # The color of the org chart nodes. If node_color is also set, this field takes precedence.
987 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
988 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
989 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
990 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
991 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
992 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
993 },
994 },
995 },
996 &quot;fontName&quot;: &quot;A String&quot;, # The name of the font to use by default for all chart text (e.g. title, axis labels, legend). If a font is specified for a specific part of the chart it will override this font name.
997 &quot;scorecardChart&quot;: { # A scorecard chart. Scorecard charts are used to highlight key performance indicators, known as KPIs, on the spreadsheet. A scorecard chart can represent things like total sales, average cost, or a top selling item. You can specify a single data value, or aggregate over a range of data. Percentage or absolute difference from a baseline value can be highlighted, like changes over time. # A scorecard chart specification.
998 &quot;customFormatOptions&quot;: { # Custom number formatting options for chart attributes. # Custom formatting options for numeric key/baseline values in scorecard chart. This field is used only when number_format_source is set to CUSTOM. This field is optional.
999 &quot;prefix&quot;: &quot;A String&quot;, # Custom prefix to be prepended to the chart attribute. This field is optional.
1000 &quot;suffix&quot;: &quot;A String&quot;, # Custom suffix to be appended to the chart attribute. This field is optional.
1001 },
1002 &quot;baselineValueData&quot;: { # The data included in a domain or series. # The data for scorecard baseline value. This field is optional.
1003 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1004 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1005 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1006 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1007 },
1008 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1009 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1010 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1011 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1012 },
1013 },
1014 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1015 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1016 },
1017 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1018 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1019 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1020 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1021 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1022 &quot;sheetId&quot;: 42, # The sheet this range is on.
1023 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001024 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1025 },
1026 ],
1027 },
1028 },
1029 &quot;scaleFactor&quot;: 3.14, # Value to scale scorecard key and baseline value. For example, a factor of 10 can be used to divide all values in the chart by 10. This field is optional.
1030 &quot;baselineValueFormat&quot;: { # Formatting options for baseline value. # Formatting options for baseline value. This field is needed only if baseline_value_data is specified.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001031 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for baseline value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001032 &quot;bold&quot;: True or False, # True if the text is bold.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001033 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
1034 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001035 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1036 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001037 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1038 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001039 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001040 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001041 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001042 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001043 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1044 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001045 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1046 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001047 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001048 },
1049 &quot;italic&quot;: True or False, # True if the text is italicized.
1050 &quot;underline&quot;: True or False, # True if the text is underlined.
1051 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
1052 &quot;fontSize&quot;: 42, # The size of the font.
1053 },
1054 &quot;comparisonType&quot;: &quot;A String&quot;, # The comparison type of key value with baseline value.
1055 &quot;negativeColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a negative change for key value. This field is optional. If negative_color is also set, this field takes precedence.
1056 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1057 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1058 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1059 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1060 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1061 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001062 },
1063 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001064 &quot;positiveColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a positive change for key value. This field is optional. If positive_color is also set, this field takes precedence.
1065 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1066 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1067 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1068 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1069 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1070 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1071 },
1072 },
1073 &quot;description&quot;: &quot;A String&quot;, # Description which is appended after the baseline value. This field is optional.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001074 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of baseline value. This field is optional. If not specified, default positioning is used.
1075 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
1076 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001077 &quot;negativeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a negative change for key value. This field is optional.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001078 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1079 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001080 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1081 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1082 },
1083 &quot;positiveColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a positive change for key value. This field is optional.
1084 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1085 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1086 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1087 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001088 },
1089 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001090 &quot;keyValueData&quot;: { # The data included in a domain or series. # The data for scorecard key value.
1091 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1092 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1093 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1094 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1095 },
1096 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1097 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1098 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1099 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1100 },
1101 },
1102 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1103 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1104 },
1105 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1106 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1107 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1108 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1109 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1110 &quot;sheetId&quot;: 42, # The sheet this range is on.
1111 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1112 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1113 },
1114 ],
1115 },
1116 },
1117 &quot;numberFormatSource&quot;: &quot;A String&quot;, # The number format source used in the scorecard chart. This field is optional.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001118 &quot;keyValueFormat&quot;: { # Formatting options for key value. # Formatting options for key value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001119 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for key value.
1120 &quot;bold&quot;: True or False, # True if the text is bold.
1121 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
1122 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
1123 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1124 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1125 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1126 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1127 },
1128 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
1129 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1130 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1131 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1132 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1133 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1134 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1135 },
1136 },
1137 &quot;italic&quot;: True or False, # True if the text is italicized.
1138 &quot;underline&quot;: True or False, # True if the text is underlined.
1139 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
1140 &quot;fontSize&quot;: 42, # The size of the font.
1141 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001142 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of key value. This field is optional. If not specified, default positioning is used.
1143 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
1144 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001145 },
1146 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for key and baseline chart data in scorecard chart. This field is not supported for data source charts. Use the ChartData.aggregateType field of the key_value_data or baseline_value_data instead for data source charts. This field is optional.
1147 },
1148 &quot;sortSpecs&quot;: [ # The order to sort the chart data by. Only a single sort spec is supported. Only supported for data source charts.
1149 { # A sort order associated with a specific column or row.
1150 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
1151 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1152 },
1153 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
1154 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
1155 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1156 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001157 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1158 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001159 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1160 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001161 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001162 },
1163 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
1164 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1165 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1166 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1167 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1168 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1169 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1170 },
1171 },
1172 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
1173 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1174 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1175 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1176 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1177 },
1178 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
1179 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
1180 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1181 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1182 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1183 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1184 },
1185 },
1186 ],
1187 &quot;title&quot;: &quot;A String&quot;, # The title of the chart.
1188 &quot;titleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The title text format. Strikethrough and underline are not supported.
1189 &quot;bold&quot;: True or False, # True if the text is bold.
1190 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
1191 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
1192 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1193 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1194 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1195 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1196 },
1197 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
1198 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1199 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1200 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1201 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1202 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1203 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1204 },
1205 },
1206 &quot;italic&quot;: True or False, # True if the text is italicized.
1207 &quot;underline&quot;: True or False, # True if the text is underlined.
1208 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
1209 &quot;fontSize&quot;: 42, # The size of the font.
1210 },
1211 &quot;maximized&quot;: True or False, # True to make a chart fill the entire space in which it&#x27;s rendered with minimum padding. False to use the default padding. (Not applicable to Geo and Org charts.)
1212 &quot;dataSourceChartProperties&quot;: { # Properties of a data source chart. # If present, the field contains data source chart specific properties.
1213 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the data source that the chart is associated with.
1214 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
1215 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
1216 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
1217 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
1218 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
1219 },
1220 },
1221 &quot;waterfallChart&quot;: { # A waterfall chart. # A waterfall chart specification.
1222 &quot;hideConnectorLines&quot;: True or False, # True to hide connector lines between columns.
1223 &quot;connectorLineStyle&quot;: { # Properties that describe the style of a line. # The line style for the connector lines.
1224 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
1225 &quot;width&quot;: 42, # The thickness of the line, in px.
1226 },
1227 &quot;series&quot;: [ # The data this waterfall chart is visualizing.
1228 { # A single series of data for a waterfall chart.
1229 &quot;data&quot;: { # The data included in a domain or series. # The data being visualized in this series.
1230 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1231 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1232 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1233 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1234 },
1235 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1236 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1237 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1238 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1239 },
1240 },
1241 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1242 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1243 },
1244 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1245 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1246 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1247 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1248 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1249 &quot;sheetId&quot;: 42, # The sheet this range is on.
1250 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1251 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1252 },
1253 ],
1254 },
1255 },
1256 &quot;subtotalColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all subtotal columns in this series.
1257 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
1258 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001259 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1260 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001261 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1262 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001263 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001264 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
1265 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1266 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1267 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1268 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1269 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1270 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1271 },
1272 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001273 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001274 &quot;negativeColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with negative values.
1275 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
1276 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
1277 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1278 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1279 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1280 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1281 },
1282 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
1283 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1284 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1285 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1286 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1287 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1288 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1289 },
1290 },
1291 },
1292 &quot;hideTrailingSubtotal&quot;: True or False, # True to hide the subtotal column from the end of the series. By default, a subtotal column will appear at the end of each series. Setting this field to true will hide that subtotal column for this series.
1293 &quot;customSubtotals&quot;: [ # Custom subtotal columns appearing in this series. The order in which subtotals are defined is not significant. Only one subtotal may be defined for each data point.
1294 { # A custom subtotal column for a waterfall chart series.
1295 &quot;subtotalIndex&quot;: 42, # The 0-based index of a data point within the series. If data_is_subtotal is true, the data point at this index is the subtotal. Otherwise, the subtotal appears after the data point with this index. A series can have multiple subtotals at arbitrary indices, but subtotals do not affect the indices of the data points. For example, if a series has three data points, their indices will always be 0, 1, and 2, regardless of how many subtotals exist on the series or what data points they are associated with.
1296 &quot;label&quot;: &quot;A String&quot;, # A label for the subtotal column.
1297 &quot;dataIsSubtotal&quot;: True or False, # True if the data point at subtotal_index is the subtotal. If false, the subtotal will be computed and appear after the data point.
1298 },
1299 ],
1300 &quot;positiveColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with positive values.
1301 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
1302 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
1303 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1304 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1305 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1306 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1307 },
1308 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
1309 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1310 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1311 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1312 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1313 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1314 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1315 },
1316 },
1317 },
1318 },
1319 ],
1320 &quot;domain&quot;: { # The domain of a waterfall chart. # The domain data (horizontal axis) for the waterfall chart.
1321 &quot;data&quot;: { # The data included in a domain or series. # The data of the WaterfallChartDomain.
1322 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1323 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1324 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1325 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1326 },
1327 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1328 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1329 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1330 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1331 },
1332 },
1333 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1334 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1335 },
1336 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1337 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1338 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1339 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1340 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1341 &quot;sheetId&quot;: 42, # The sheet this range is on.
1342 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1343 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1344 },
1345 ],
1346 },
1347 },
1348 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
1349 },
1350 &quot;firstValueIsTotal&quot;: True or False, # True to interpret the first value as a total.
1351 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type.
1352 },
1353 &quot;histogramChart&quot;: { # A histogram chart. A histogram chart groups data items into bins, displaying each bin as a column of stacked items. Histograms are used to display the distribution of a dataset. Each column of items represents a range into which those items fall. The number of bins can be chosen automatically or specified explicitly. # A histogram chart specification.
1354 &quot;series&quot;: [ # The series for a histogram may be either a single series of values to be bucketed or multiple series, each of the same length, containing the name of the series followed by the values to be bucketed for that series.
1355 { # A histogram series containing the series color and data.
1356 &quot;data&quot;: { # The data included in a domain or series. # The data for this histogram series.
1357 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1358 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1359 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1360 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1361 },
1362 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1363 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1364 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1365 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1366 },
1367 },
1368 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1369 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1370 },
1371 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1372 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1373 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1374 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1375 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1376 &quot;sheetId&quot;: 42, # The sheet this range is on.
1377 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1378 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1379 },
1380 ],
1381 },
1382 },
1383 &quot;barColorStyle&quot;: { # A color value. # The color of the column representing this series in each bucket. This field is optional. If bar_color is also set, this field takes precedence.
1384 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1385 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1386 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1387 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1388 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1389 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1390 },
1391 },
1392 &quot;barColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column representing this series in each bucket. This field is optional.
1393 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1394 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1395 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1396 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1397 },
1398 },
1399 ],
1400 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
1401 &quot;showItemDividers&quot;: True or False, # Whether horizontal divider lines should be displayed between items in each column.
1402 &quot;outlierPercentile&quot;: 3.14, # The outlier percentile is used to ensure that outliers do not adversely affect the calculation of bucket sizes. For example, setting an outlier percentile of 0.05 indicates that the top and bottom 5% of values when calculating buckets. The values are still included in the chart, they will be added to the first or last buckets instead of their own buckets. Must be between 0.0 and 0.5.
1403 &quot;bucketSize&quot;: 3.14, # By default the bucket size (the range of values stacked in a single column) is chosen automatically, but it may be overridden here. E.g., A bucket size of 1.5 results in buckets from 0 - 1.5, 1.5 - 3.0, etc. Cannot be negative. This field is optional.
1404 },
1405 &quot;hiddenDimensionStrategy&quot;: &quot;A String&quot;, # Determines how the charts will use hidden rows or columns.
1406 &quot;bubbleChart&quot;: { # A bubble chart. # A bubble chart specification.
1407 &quot;bubbleMaxRadiusSize&quot;: 42, # The max radius size of the bubbles, in pixels. If specified, the field must be a positive value.
1408 &quot;bubbleSizes&quot;: { # The data included in a domain or series. # The data contianing the bubble sizes. Bubble sizes are used to draw the bubbles at different sizes relative to each other. If specified, group_ids must also be specified. This field is optional.
1409 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1410 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1411 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1412 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1413 },
1414 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1415 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1416 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1417 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1418 },
1419 },
1420 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1421 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1422 },
1423 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1424 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1425 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1426 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1427 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1428 &quot;sheetId&quot;: 42, # The sheet this range is on.
1429 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1430 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1431 },
1432 ],
1433 },
1434 },
1435 &quot;groupIds&quot;: { # The data included in a domain or series. # The data containing the bubble group IDs. All bubbles with the same group ID are drawn in the same color. If bubble_sizes is specified then this field must also be specified but may contain blank values. This field is optional.
1436 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1437 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1438 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1439 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1440 },
1441 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1442 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1443 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1444 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1445 },
1446 },
1447 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1448 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1449 },
1450 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1451 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1452 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1453 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1454 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1455 &quot;sheetId&quot;: 42, # The sheet this range is on.
1456 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1457 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1458 },
1459 ],
1460 },
1461 },
1462 &quot;bubbleOpacity&quot;: 3.14, # The opacity of the bubbles between 0 and 1.0. 0 is fully transparent and 1 is fully opaque.
1463 &quot;bubbleLabels&quot;: { # The data included in a domain or series. # The data containing the bubble labels. These do not need to be unique.
1464 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1465 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1466 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1467 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1468 },
1469 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1470 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1471 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1472 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1473 },
1474 },
1475 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1476 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1477 },
1478 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1479 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1480 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1481 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1482 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1483 &quot;sheetId&quot;: 42, # The sheet this range is on.
1484 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1485 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1486 },
1487 ],
1488 },
1489 },
1490 &quot;bubbleBorderColorStyle&quot;: { # A color value. # The bubble border color. If bubble_border_color is also set, this field takes precedence.
1491 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1492 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1493 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1494 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1495 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1496 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1497 },
1498 },
1499 &quot;domain&quot;: { # The data included in a domain or series. # The data containing the bubble x-values. These values locate the bubbles in the chart horizontally.
1500 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1501 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1502 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1503 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1504 },
1505 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1506 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1507 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1508 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1509 },
1510 },
1511 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1512 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1513 },
1514 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1515 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1516 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1517 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1518 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1519 &quot;sheetId&quot;: 42, # The sheet this range is on.
1520 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1521 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1522 },
1523 ],
1524 },
1525 },
1526 &quot;bubbleTextStyle&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text inside the bubbles. Strikethrough and underline are not supported.
1527 &quot;bold&quot;: True or False, # True if the text is bold.
1528 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
1529 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
1530 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1531 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1532 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1533 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1534 },
1535 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
1536 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1537 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1538 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1539 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1540 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1541 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1542 },
1543 },
1544 &quot;italic&quot;: True or False, # True if the text is italicized.
1545 &quot;underline&quot;: True or False, # True if the text is underlined.
1546 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
1547 &quot;fontSize&quot;: 42, # The size of the font.
1548 },
1549 &quot;bubbleMinRadiusSize&quot;: 42, # The minimum radius size of the bubbles, in pixels. If specific, the field must be a positive value.
1550 &quot;bubbleBorderColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The bubble border color.
1551 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1552 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1553 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1554 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1555 },
1556 &quot;series&quot;: { # The data included in a domain or series. # The data contianing the bubble y-values. These values locate the bubbles in the chart vertically.
1557 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1558 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1559 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1560 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1561 },
1562 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1563 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1564 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1565 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1566 },
1567 },
1568 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1569 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1570 },
1571 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1572 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1573 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1574 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1575 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1576 &quot;sheetId&quot;: 42, # The sheet this range is on.
1577 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1578 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1579 },
1580 ],
1581 },
1582 },
1583 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the chart should be drawn.
1584 },
1585 &quot;subtitle&quot;: &quot;A String&quot;, # The subtitle of the chart.
1586 &quot;pieChart&quot;: { # A pie chart. # A pie chart specification.
1587 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the pie chart should be drawn.
1588 &quot;threeDimensional&quot;: True or False, # True if the pie is three dimensional.
1589 &quot;domain&quot;: { # The data included in a domain or series. # The data that covers the domain of the pie chart.
1590 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1591 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1592 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1593 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1594 },
1595 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1596 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1597 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1598 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1599 },
1600 },
1601 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1602 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1603 },
1604 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1605 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1606 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1607 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1608 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1609 &quot;sheetId&quot;: 42, # The sheet this range is on.
1610 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1611 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1612 },
1613 ],
1614 },
1615 },
1616 &quot;pieHole&quot;: 3.14, # The size of the hole in the pie chart.
1617 &quot;series&quot;: { # The data included in a domain or series. # The data that covers the one and only series of the pie chart.
1618 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1619 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1620 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1621 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1622 },
1623 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1624 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1625 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1626 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1627 },
1628 },
1629 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1630 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1631 },
1632 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1633 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1634 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1635 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1636 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1637 &quot;sheetId&quot;: 42, # The sheet this range is on.
1638 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1639 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1640 },
1641 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001642 },
1643 },
1644 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001645 &quot;treemapChart&quot;: { # A Treemap chart. # A treemap chart specification.
1646 &quot;headerColorStyle&quot;: { # A color value. # The background color for header cells. If header_color is also set, this field takes precedence.
1647 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1648 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1649 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1650 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1651 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1652 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1653 },
1654 },
1655 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data the contains the treemap cells&#x27; parent labels.
1656 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1657 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1658 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1659 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1660 },
1661 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1662 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1663 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1664 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1665 },
1666 },
1667 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1668 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1669 },
1670 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1671 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1672 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1673 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1674 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1675 &quot;sheetId&quot;: 42, # The sheet this range is on.
1676 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1677 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1678 },
1679 ],
1680 },
1681 },
1682 &quot;minValue&quot;: 3.14, # The minimum possible data value. Cells with values less than this will have the same color as cells with this value. If not specified, defaults to the actual minimum value from color_data, or the minimum value from size_data if color_data is not specified.
1683 &quot;hintedLevels&quot;: 42, # The number of additional data levels beyond the labeled levels to be shown on the treemap chart. These levels are not interactive and are shown without their labels. Defaults to 0 if not specified.
1684 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for header cells.
1685 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1686 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1687 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1688 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1689 },
1690 &quot;maxValue&quot;: 3.14, # The maximum possible data value. Cells with values greater than this will have the same color as cells with this value. If not specified, defaults to the actual maximum value from color_data, or the maximum value from size_data if color_data is not specified.
1691 &quot;sizeData&quot;: { # The data included in a domain or series. # The data that determines the size of each treemap data cell. This data is expected to be numeric. The cells corresponding to non-numeric or missing data will not be rendered. If color_data is not specified, this data is used to determine data cell background colors as well.
1692 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1693 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1694 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1695 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1696 },
1697 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1698 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1699 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1700 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1701 },
1702 },
1703 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1704 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1705 },
1706 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1707 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1708 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1709 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1710 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1711 &quot;sheetId&quot;: 42, # The sheet this range is on.
1712 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1713 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1714 },
1715 ],
1716 },
1717 },
1718 &quot;labels&quot;: { # The data included in a domain or series. # The data that contains the treemap cell labels.
1719 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1720 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1721 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1722 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1723 },
1724 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1725 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1726 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1727 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1728 },
1729 },
1730 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1731 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1732 },
1733 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1734 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1735 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1736 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1737 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1738 &quot;sheetId&quot;: 42, # The sheet this range is on.
1739 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1740 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1741 },
1742 ],
1743 },
1744 },
1745 &quot;colorData&quot;: { # The data included in a domain or series. # The data that determines the background color of each treemap data cell. This field is optional. If not specified, size_data is used to determine background colors. If specified, the data is expected to be numeric. color_scale will determine how the values in this data map to data cell background colors.
1746 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1747 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1748 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1749 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1750 },
1751 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1752 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1753 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1754 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1755 },
1756 },
1757 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1758 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1759 },
1760 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1761 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1762 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1763 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1764 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1765 &quot;sheetId&quot;: 42, # The sheet this range is on.
1766 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1767 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1768 },
1769 ],
1770 },
1771 },
1772 &quot;colorScale&quot;: { # A color scale for a treemap chart. # The color scale for data cells in the treemap chart. Data cells are assigned colors based on their color values. These color values come from color_data, or from size_data if color_data is not specified. Cells with color values less than or equal to min_value will have minValueColor as their background color. Cells with color values greater than or equal to max_value will have maxValueColor as their background color. Cells with color values between min_value and max_value will have background colors on a gradient between minValueColor and maxValueColor, the midpoint of the gradient being midValueColor. Cells with missing or non-numeric color values will have noDataColor as their background color.
1773 &quot;midValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified.
1774 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1775 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1776 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1777 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1778 },
1779 &quot;maxValueColorStyle&quot;: { # A color value. # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified. If max_value_color is also set, this field takes precedence.
1780 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1781 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1782 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1783 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1784 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1785 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1786 },
1787 },
1788 &quot;minValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified.
1789 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1790 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1791 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1792 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1793 },
1794 &quot;noDataColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified.
1795 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1796 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1797 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1798 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1799 },
1800 &quot;noDataColorStyle&quot;: { # A color value. # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified. If no_data_color is also set, this field takes precedence.
1801 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1802 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1803 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1804 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1805 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1806 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1807 },
1808 },
1809 &quot;midValueColorStyle&quot;: { # A color value. # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified. If mid_value_color is also set, this field takes precedence.
1810 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1811 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1812 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1813 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1814 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1815 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1816 },
1817 },
1818 &quot;maxValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified.
1819 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1820 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1821 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1822 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1823 },
1824 &quot;minValueColorStyle&quot;: { # A color value. # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified. If min_value_color is also set, this field takes precedence.
1825 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1826 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1827 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1828 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1829 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1830 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1831 },
1832 },
1833 },
1834 &quot;hideTooltips&quot;: True or False, # True to hide tooltips.
1835 &quot;levels&quot;: 42, # The number of data levels to show on the treemap chart. These levels are interactive and are shown with their labels. Defaults to 2 if not specified.
1836 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format for all labels on the chart.
1837 &quot;bold&quot;: True or False, # True if the text is bold.
1838 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
1839 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
1840 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1841 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1842 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1843 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1844 },
1845 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
1846 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1847 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1848 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1849 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1850 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1851 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1852 },
1853 },
1854 &quot;italic&quot;: True or False, # True if the text is italicized.
1855 &quot;underline&quot;: True or False, # True if the text is underlined.
1856 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
1857 &quot;fontSize&quot;: 42, # The size of the font.
1858 },
1859 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001860 &quot;titleTextPosition&quot;: { # Position settings for text. # The title text position. This field is optional.
1861 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
1862 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001863 &quot;altText&quot;: &quot;A String&quot;, # The alternative text that describes the chart. This is often used for accessibility.
1864 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the entire chart. Not applicable to Org charts. If background_color is also set, this field takes precedence.
1865 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1866 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001867 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1868 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001869 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1870 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001871 },
1872 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001873 &quot;filterSpecs&quot;: [ # The filters applied to the source data of the chart. Only supported for data source charts.
1874 { # The filter criteria associated with a specific column.
1875 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
1876 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1877 },
1878 &quot;columnIndex&quot;: 42, # The column index.
1879 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
1880 &quot;hiddenValues&quot;: [ # Values that should be hidden.
1881 &quot;A String&quot;,
1882 ],
1883 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
1884 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1885 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1886 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1887 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1888 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1889 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1890 },
1891 },
1892 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
1893 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
1894 { # The value of the condition.
1895 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
1896 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
1897 },
1898 ],
1899 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
1900 },
1901 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
1902 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
1903 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
1904 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1905 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1906 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1907 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1908 },
1909 },
1910 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
1911 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1912 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1913 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1914 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1915 },
1916 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
1917 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
1918 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
1919 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
1920 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
1921 },
1922 },
1923 },
1924 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001925 &quot;candlestickChart&quot;: { # A candlestick chart. # A candlestick chart specification.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001926 &quot;domain&quot;: { # The domain of a CandlestickChart. # The domain data (horizontal axis) for the candlestick chart. String data will be treated as discrete labels, other data will be treated as continuous values.
1927 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
1928 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickDomain.
1929 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
1930 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1931 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1932 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1933 },
1934 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1935 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
1936 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
1937 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
1938 },
1939 },
1940 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1941 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1942 },
1943 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1944 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1945 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1946 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
1947 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1948 &quot;sheetId&quot;: 42, # The sheet this range is on.
1949 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
1950 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1951 },
1952 ],
1953 },
1954 },
1955 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001956 &quot;data&quot;: [ # The Candlestick chart data. Only one CandlestickData is supported.
1957 { # The Candlestick chart data, each containing the low, open, close, and high values for a series.
1958 &quot;openSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the open/initial value for each candle. This is the bottom of the candle body. If less than the close value the candle will be filled. Otherwise the candle will be hollow.
1959 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001960 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001961 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1962 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1963 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1964 },
1965 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1966 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001967 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001968 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001969 },
1970 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001971 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
1972 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
1973 },
1974 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
1975 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
1976 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
1977 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001978 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
1979 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001980 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001981 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
1982 },
1983 ],
1984 },
1985 },
1986 },
1987 &quot;highSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the high/maximum value for each candle. This is the top of the candle&#x27;s center line.
1988 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001989 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001990 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
1991 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
1992 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
1993 },
1994 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
1995 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001996 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08001997 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08001998 },
1999 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002000 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
2001 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2002 },
2003 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
2004 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
2005 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
2006 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002007 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2008 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002009 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002010 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2011 },
2012 ],
2013 },
2014 },
2015 },
2016 &quot;lowSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the low/minimum value for each candle. This is the bottom of the candle&#x27;s center line.
2017 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002018 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002019 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
2020 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
2021 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
2022 },
2023 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
2024 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002025 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002026 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002027 },
2028 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002029 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
2030 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2031 },
2032 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
2033 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
2034 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
2035 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002036 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2037 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002038 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002039 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2040 },
2041 ],
2042 },
2043 },
2044 },
2045 &quot;closeSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the close/final value for each candle. This is the top of the candle body. If greater than the open value the candle will be filled. Otherwise the candle will be hollow.
2046 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002047 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002048 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
2049 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
2050 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
2051 },
2052 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
2053 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002054 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002055 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002056 },
2057 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002058 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
2059 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2060 },
2061 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
2062 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
2063 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
2064 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002065 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2066 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002067 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002068 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2069 },
2070 ],
2071 },
2072 },
2073 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -07002074 },
2075 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002076 },
2077 &quot;basicChart&quot;: { # The specification for a basic chart. See BasicChartType for the list of charts this supports. # A basic chart specification, can be one of many kinds of charts. See BasicChartType for the list of all charts this supports.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002078 &quot;domains&quot;: [ # The domain of data this is charting. Only a single domain is supported.
2079 { # The domain of a chart. For example, if charting stock prices over time, this would be the date.
2080 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
2081 &quot;domain&quot;: { # The data included in a domain or series. # The data of the domain. For example, if charting stock prices over time, this is the data representing the dates.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002082 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002083 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
2084 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
2085 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
2086 },
2087 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
2088 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002089 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002090 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002091 },
2092 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002093 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
2094 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2095 },
2096 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
2097 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
2098 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
2099 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002100 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2101 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002102 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002103 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2104 },
2105 ],
2106 },
2107 },
2108 },
2109 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002110 &quot;compareMode&quot;: &quot;A String&quot;, # The behavior of tooltips and data highlighting when hovering on data and chart area.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002111 &quot;axis&quot;: [ # The axis on the chart.
2112 { # An axis of the chart. A chart may not have more than one axis per axis position.
2113 &quot;title&quot;: &quot;A String&quot;, # The title of this axis. If set, this overrides any title inferred from headers of the data.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002114 &quot;position&quot;: &quot;A String&quot;, # The position of this axis.
2115 &quot;titleTextPosition&quot;: { # Position settings for text. # The axis title text position.
2116 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
2117 },
2118 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the title. Only valid if the axis is not associated with the domain.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002119 &quot;bold&quot;: True or False, # True if the text is bold.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002120 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
2121 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002122 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2123 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002124 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2125 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002126 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002127 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002128 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002129 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002130 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2131 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002132 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2133 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002134 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002135 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002136 &quot;italic&quot;: True or False, # True if the text is italicized.
2137 &quot;underline&quot;: True or False, # True if the text is underlined.
2138 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
2139 &quot;fontSize&quot;: 42, # The size of the font.
2140 },
2141 &quot;viewWindowOptions&quot;: { # The options that define a &quot;view window&quot; for a chart (such as the visible values in an axis). # The view window options for this axis.
2142 &quot;viewWindowMax&quot;: 3.14, # The maximum numeric value to be shown in this view window. If unset, will automatically determine a maximum value that looks good for the data.
2143 &quot;viewWindowMin&quot;: 3.14, # The minimum numeric value to be shown in this view window. If unset, will automatically determine a minimum value that looks good for the data.
2144 &quot;viewWindowMode&quot;: &quot;A String&quot;, # The view window&#x27;s mode.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002145 },
2146 },
2147 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002148 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
2149 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type for charts that support vertical stacking. Applies to Area, Bar, Column, Combo, and Stepped Area charts.
2150 &quot;threeDimensional&quot;: True or False, # True to make the chart 3D. Applies to Bar and Column charts.
2151 &quot;interpolateNulls&quot;: True or False, # If some values in a series are missing, gaps may appear in the chart (e.g, segments of lines in a line chart will be missing). To eliminate these gaps set this to true. Applies to Line, Area, and Combo charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002152 &quot;series&quot;: [ # The data this chart is visualizing.
2153 { # A single series of data in a chart. For example, if charting stock prices over time, multiple series may exist, one for the &quot;Open Price&quot;, &quot;High Price&quot;, &quot;Low Price&quot; and &quot;Close Price&quot;.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002154 &quot;series&quot;: { # The data included in a domain or series. # The data being visualized in this chart series.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002155 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002156 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
2157 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
2158 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
2159 },
2160 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
2161 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002162 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002163 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002164 },
2165 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002166 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
2167 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2168 },
2169 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
2170 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
2171 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
2172 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002173 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2174 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002175 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002176 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2177 },
2178 ],
2179 },
2180 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002181 &quot;type&quot;: &quot;A String&quot;, # The type of this series. Valid only if the chartType is COMBO. Different types will change the way the series is visualized. Only LINE, AREA, and COLUMN are supported.
2182 &quot;targetAxis&quot;: &quot;A String&quot;, # The minor axis that will specify the range of values for this series. For example, if charting stocks over time, the &quot;Volume&quot; series may want to be pinned to the right with the prices pinned to the left, because the scale of trading volume is different than the scale of prices. It is an error to specify an axis that isn&#x27;t a valid minor axis for the chart&#x27;s type.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002183 &quot;colorStyle&quot;: { # A color value. # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used. If color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002184 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002185 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002186 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2187 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002188 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2189 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002190 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002191 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002192 &quot;lineStyle&quot;: { # Properties that describe the style of a line. # The line style of this series. Valid only if the chartType is AREA, LINE, or SCATTER. COMBO charts are also supported if the series chart type is AREA or LINE.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002193 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002194 &quot;width&quot;: 42, # The thickness of the line, in px.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002195 },
2196 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002197 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2198 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002199 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2200 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002201 },
2202 },
2203 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002204 &quot;chartType&quot;: &quot;A String&quot;, # The type of the chart.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002205 &quot;headerCount&quot;: 42, # The number of rows or columns in the data that are &quot;headers&quot;. If not set, Google Sheets will guess how many rows are headers based on the data. (Note that BasicChartAxis.title may override the axis title inferred from the header values.)
2206 &quot;lineSmoothing&quot;: True or False, # Gets whether all lines should be rendered smooth or straight by default. Applies to Line charts.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002207 },
2208 &quot;subtitleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The subtitle text format. Strikethrough and underline are not supported.
2209 &quot;bold&quot;: True or False, # True if the text is bold.
2210 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
2211 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
2212 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2213 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2214 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2215 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2216 },
2217 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
2218 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2219 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2220 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2221 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2222 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2223 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2224 },
2225 },
2226 &quot;italic&quot;: True or False, # True if the text is italicized.
2227 &quot;underline&quot;: True or False, # True if the text is underlined.
2228 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
2229 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002230 },
2231 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the entire chart. Not applicable to Org charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002232 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2233 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002234 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2235 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002236 },
2237 },
2238 },
2239 &quot;duplicateSheet&quot;: { # Duplicates the contents of a sheet. # Duplicates a sheet.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002240 &quot;insertSheetIndex&quot;: 42, # The zero-based index where the new sheet should be inserted. The index of all sheets after this are incremented.
2241 &quot;newSheetId&quot;: 42, # If set, the ID of the new sheet. If not set, an ID is chosen. If set, the ID must not conflict with any existing sheet ID. If set, it must be non-negative.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002242 &quot;sourceSheetId&quot;: 42, # The sheet to duplicate. If the source sheet is of DATA_SOURCE type, its backing DataSource is also duplicated and associated with the new copy of the sheet. No data execution is triggered, the grid data of this sheet is also copied over but only available after the batch request completes.
2243 &quot;newSheetName&quot;: &quot;A String&quot;, # The name of the new sheet. If empty, a new name is chosen for you.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002244 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002245 &quot;addNamedRange&quot;: { # Adds a named range to the spreadsheet. # Adds a named range.
2246 &quot;namedRange&quot;: { # A named range. # The named range to add. The namedRangeId field is optional; if one is not set, an id will be randomly generated. (It is an error to specify the ID of a range that already exists.)
2247 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range.
2248 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this represents.
2249 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
2250 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2251 &quot;sheetId&quot;: 42, # The sheet this range is on.
2252 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
2253 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002254 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002255 &quot;name&quot;: &quot;A String&quot;, # The name of the named range.
2256 },
2257 },
2258 &quot;updateDeveloperMetadata&quot;: { # A request to update properties of developer metadata. Updates the properties of the developer metadata selected by the filters to the values provided in the DeveloperMetadata resource. Callers must specify the properties they wish to update in the fields parameter, as well as specify at least one DataFilter matching the metadata they wish to update. # Updates an existing developer metadata entry
2259 &quot;developerMetadata&quot;: { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too. # The value that all metadata matched by the data filters will be updated to.
2260 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
2261 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
2262 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
2263 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
2264 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
2265 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
2266 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
2267 &quot;sheetId&quot;: 42, # The sheet this span is on.
2268 },
2269 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
2270 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
2271 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
2272 },
2273 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
2274 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
2275 },
2276 &quot;dataFilters&quot;: [ # The filters matching the developer metadata entries to update.
2277 { # Filter that describes what data should be selected or returned from a request.
2278 &quot;developerMetadataLookup&quot;: { # Selects DeveloperMetadata that matches all of the specified fields. For example, if only a metadata ID is specified this considers the DeveloperMetadata with that particular unique ID. If a metadata key is specified, this considers all developer metadata with that key. If a key, visibility, and location type are all specified, this considers all developer metadata with that key and visibility that are associated with a location of that type. In general, this selects all DeveloperMetadata that matches the intersection of all the specified fields; any field or combination of fields may be specified. # Selects data associated with the developer metadata matching the criteria described by this DeveloperMetadataLookup.
2279 &quot;metadataKey&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_key.
2280 &quot;metadataValue&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_value.
2281 &quot;metadataLocation&quot;: { # A location where metadata may be associated in a spreadsheet. # Limits the selected developer metadata to those entries associated with the specified location. This field either matches exact locations or all intersecting locations according the specified locationMatchingStrategy.
2282 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
2283 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
2284 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
2285 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
2286 &quot;sheetId&quot;: 42, # The sheet this span is on.
2287 },
2288 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
2289 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
2290 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
2291 },
2292 &quot;visibility&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.visibility. If left unspecified, all developer metadata visibile to the requesting project is considered.
2293 &quot;metadataId&quot;: 42, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_id.
2294 &quot;locationType&quot;: &quot;A String&quot;, # Limits the selected developer metadata to those entries which are associated with locations of the specified type. For example, when this field is specified as ROW this lookup only considers developer metadata associated on rows. If the field is left unspecified, all location types are considered. This field cannot be specified as SPREADSHEET when the locationMatchingStrategy is specified as INTERSECTING or when the metadataLocation is specified as a non-spreadsheet location: spreadsheet metadata cannot intersect any other developer metadata location. This field also must be left unspecified when the locationMatchingStrategy is specified as EXACT.
2295 &quot;locationMatchingStrategy&quot;: &quot;A String&quot;, # Determines how this lookup matches the location. If this field is specified as EXACT, only developer metadata associated on the exact location specified is matched. If this field is specified to INTERSECTING, developer metadata associated on intersecting locations is also matched. If left unspecified, this field assumes a default value of INTERSECTING. If this field is specified, a metadataLocation must also be specified.
2296 },
2297 &quot;gridRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # Selects data that matches the range described by the GridRange.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002298 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002299 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2300 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002301 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002302 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2303 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002304 &quot;a1Range&quot;: &quot;A String&quot;, # Selects data that matches the specified A1 range.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002305 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002306 ],
2307 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `developerMetadata` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
2308 },
2309 &quot;clearBasicFilter&quot;: { # Clears the basic filter, if any exists on the sheet. # Clears the basic filter on a sheet.
2310 &quot;sheetId&quot;: 42, # The sheet ID on which the basic filter should be cleared.
2311 },
2312 &quot;textToColumns&quot;: { # Splits a column of text into multiple columns, based on a delimiter in each cell. # Converts a column of text into many columns of text.
2313 &quot;delimiter&quot;: &quot;A String&quot;, # The delimiter to use. Used only if delimiterType is CUSTOM.
2314 &quot;delimiterType&quot;: &quot;A String&quot;, # The delimiter type to use.
2315 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The source data range. This must span exactly one column.
2316 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
2317 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2318 &quot;sheetId&quot;: 42, # The sheet this range is on.
2319 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
2320 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002321 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002322 },
2323 &quot;insertDimension&quot;: { # Inserts rows or columns in a sheet at a particular index. # Inserts new rows or columns in a sheet.
2324 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The dimensions to insert. Both the start and end indexes must be bounded.
2325 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
2326 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
2327 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
2328 &quot;sheetId&quot;: 42, # The sheet this span is on.
2329 },
2330 &quot;inheritFromBefore&quot;: True or False, # Whether dimension properties should be extended from the dimensions before or after the newly inserted dimensions. True to inherit from the dimensions before (in which case the start index must be greater than 0), and false to inherit from the dimensions after. For example, if row index 0 has red background and row index 1 has a green background, then inserting 2 rows at index 1 can inherit either the green or red background. If `inheritFromBefore` is true, the two new rows will be red (because the row before the insertion point was red), whereas if `inheritFromBefore` is false, the two new rows will be green (because the row after the insertion point was green).
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002331 },
2332 &quot;addProtectedRange&quot;: { # Adds a new protected range. # Adds a protected range.
2333 &quot;protectedRange&quot;: { # A protected range. # The protected range to be added. The protectedRangeId field is optional; if one is not set, an id will be randomly generated. (It is an error to specify the ID of a range that already exists.)
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002334 &quot;requestingUserCanEdit&quot;: True or False, # True if the user who requested this protected range can edit the protected area. This field is read-only.
2335 &quot;protectedRangeId&quot;: 42, # The ID of the protected range. This field is read-only.
2336 &quot;description&quot;: &quot;A String&quot;, # The description of this protected range.
2337 &quot;warningOnly&quot;: True or False, # True if this protected range will show a warning when editing. Warning-based protection means that every user can edit data in the protected range, except editing will prompt a warning asking the user to confirm the edit. When writing: if this field is true, then editors is ignored. Additionally, if this field is changed from true to false and the `editors` field is not set (nor included in the field mask), then the editors will be set to all the editors in the document.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002338 &quot;editors&quot;: { # The editors of a protected range. # The users and groups with edit access to the protected range. This field is only visible to users with edit access to the protected range and the document. Editors are not supported with warning_only protection.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002339 &quot;domainUsersCanEdit&quot;: True or False, # True if anyone in the document&#x27;s domain has edit access to the protected range. Domain protection is only supported on documents within a domain.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002340 &quot;groups&quot;: [ # The email addresses of groups with edit access to the protected range.
2341 &quot;A String&quot;,
2342 ],
2343 &quot;users&quot;: [ # The email addresses of users with edit access to the protected range.
2344 &quot;A String&quot;,
2345 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002346 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002347 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this protected range is backed by, if any. When writing, only one of range or named_range_id may be set.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002348 &quot;unprotectedRanges&quot;: [ # The list of unprotected ranges within a protected sheet. Unprotected ranges are only supported on protected sheets.
2349 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
2350 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002351 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2352 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002353 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002354 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2355 },
2356 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002357 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range that is being protected. The range may be fully unbounded, in which case this is considered a protected sheet. When writing, only one of range or named_range_id may be set.
2358 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
2359 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2360 &quot;sheetId&quot;: 42, # The sheet this range is on.
2361 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
2362 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2363 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002364 },
2365 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002366 &quot;deleteConditionalFormatRule&quot;: { # Deletes a conditional format rule at the given index. All subsequent rules&#x27; indexes are decremented. # Deletes an existing conditional format rule.
2367 &quot;index&quot;: 42, # The zero-based index of the rule to be deleted.
2368 &quot;sheetId&quot;: 42, # The sheet the rule is being deleted from.
2369 },
2370 &quot;copyPaste&quot;: { # Copies data from the source to the destination. # Copies data from one area and pastes it to another.
2371 &quot;pasteType&quot;: &quot;A String&quot;, # What kind of data to paste.
2372 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The source range to copy.
2373 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
2374 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2375 &quot;sheetId&quot;: 42, # The sheet this range is on.
2376 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
2377 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2378 },
2379 &quot;destination&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The location to paste to. If the range covers a span that&#x27;s a multiple of the source&#x27;s height or width, then the data will be repeated to fill in the destination range. If the range is smaller than the source range, the entire source data will still be copied (beyond the end of the destination range).
2380 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
2381 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2382 &quot;sheetId&quot;: 42, # The sheet this range is on.
2383 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
2384 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2385 },
2386 &quot;pasteOrientation&quot;: &quot;A String&quot;, # How that data should be oriented when pasting.
2387 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002388 &quot;deleteDeveloperMetadata&quot;: { # A request to delete developer metadata. # Deletes developer metadata
2389 &quot;dataFilter&quot;: { # Filter that describes what data should be selected or returned from a request. # The data filter describing the criteria used to select which developer metadata entry to delete.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002390 &quot;developerMetadataLookup&quot;: { # Selects DeveloperMetadata that matches all of the specified fields. For example, if only a metadata ID is specified this considers the DeveloperMetadata with that particular unique ID. If a metadata key is specified, this considers all developer metadata with that key. If a key, visibility, and location type are all specified, this considers all developer metadata with that key and visibility that are associated with a location of that type. In general, this selects all DeveloperMetadata that matches the intersection of all the specified fields; any field or combination of fields may be specified. # Selects data associated with the developer metadata matching the criteria described by this DeveloperMetadataLookup.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002391 &quot;metadataKey&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_key.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002392 &quot;metadataValue&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_value.
2393 &quot;metadataLocation&quot;: { # A location where metadata may be associated in a spreadsheet. # Limits the selected developer metadata to those entries associated with the specified location. This field either matches exact locations or all intersecting locations according the specified locationMatchingStrategy.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002394 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
2395 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
2396 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002397 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002398 &quot;sheetId&quot;: 42, # The sheet this span is on.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002399 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002400 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
2401 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002402 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
2403 },
2404 &quot;visibility&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.visibility. If left unspecified, all developer metadata visibile to the requesting project is considered.
2405 &quot;metadataId&quot;: 42, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_id.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002406 &quot;locationType&quot;: &quot;A String&quot;, # Limits the selected developer metadata to those entries which are associated with locations of the specified type. For example, when this field is specified as ROW this lookup only considers developer metadata associated on rows. If the field is left unspecified, all location types are considered. This field cannot be specified as SPREADSHEET when the locationMatchingStrategy is specified as INTERSECTING or when the metadataLocation is specified as a non-spreadsheet location: spreadsheet metadata cannot intersect any other developer metadata location. This field also must be left unspecified when the locationMatchingStrategy is specified as EXACT.
2407 &quot;locationMatchingStrategy&quot;: &quot;A String&quot;, # Determines how this lookup matches the location. If this field is specified as EXACT, only developer metadata associated on the exact location specified is matched. If this field is specified to INTERSECTING, developer metadata associated on intersecting locations is also matched. If left unspecified, this field assumes a default value of INTERSECTING. If this field is specified, a metadataLocation must also be specified.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002408 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002409 &quot;gridRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # Selects data that matches the range described by the GridRange.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002410 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002411 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2412 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002413 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002414 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2415 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002416 &quot;a1Range&quot;: &quot;A String&quot;, # Selects data that matches the specified A1 range.
2417 },
2418 },
2419 &quot;updateCells&quot;: { # Updates all cells in a range with new data. # Updates many cells at once.
2420 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range to write data to. If the data in rows does not cover the entire requested range, the fields matching those set in fields will be cleared.
2421 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
2422 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2423 &quot;sheetId&quot;: 42, # The sheet this range is on.
2424 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
2425 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2426 },
2427 &quot;start&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The coordinate to start writing data at. Any number of rows and columns (including a different number of columns per row) may be written.
2428 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
2429 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
2430 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
2431 },
2432 &quot;rows&quot;: [ # The data to write.
2433 { # Data about each cell in a row.
2434 &quot;values&quot;: [ # The values in the row, one per column.
2435 { # Data about a specific cell.
2436 &quot;effectiveValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The effective value of the cell. For cells with formulas, this is the calculated value. For cells with literals, this is the same as the user_entered_value. This field is read-only.
2437 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
2438 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
2439 &quot;type&quot;: &quot;A String&quot;, # The type of error.
2440 },
2441 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
2442 &quot;boolValue&quot;: True or False, # Represents a boolean value.
2443 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
2444 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002445 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002446 &quot;formattedValue&quot;: &quot;A String&quot;, # The formatted value of the cell. This is the value as it&#x27;s shown to the user. This field is read-only.
2447 &quot;userEnteredFormat&quot;: { # The format of a cell. # The format the user entered for the cell. When writing, the new format will be merged with the existing format.
2448 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
2449 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
2450 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
2451 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
2452 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
2453 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2454 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2455 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2456 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2457 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2458 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2459 },
2460 },
2461 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
2462 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2463 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2464 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2465 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2466 },
2467 },
2468 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
2469 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
2470 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
2471 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
2472 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2473 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2474 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2475 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2476 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2477 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2478 },
2479 },
2480 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
2481 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2482 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2483 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2484 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2485 },
2486 },
2487 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
2488 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
2489 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
2490 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
2491 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2492 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2493 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2494 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2495 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2496 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2497 },
2498 },
2499 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
2500 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2501 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2502 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2503 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2504 },
2505 },
2506 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
2507 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
2508 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
2509 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
2510 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2511 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2512 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2513 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2514 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2515 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2516 },
2517 },
2518 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
2519 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2520 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2521 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2522 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2523 },
2524 },
2525 },
2526 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
2527 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2528 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2529 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2530 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2531 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2532 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2533 },
2534 },
2535 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
2536 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
2537 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
2538 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
2539 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
2540 },
2541 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
2542 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
2543 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
2544 &quot;bold&quot;: True or False, # True if the text is bold.
2545 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
2546 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
2547 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2548 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2549 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2550 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2551 },
2552 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
2553 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2554 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2555 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2556 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2557 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2558 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2559 },
2560 },
2561 &quot;italic&quot;: True or False, # True if the text is italicized.
2562 &quot;underline&quot;: True or False, # True if the text is underlined.
2563 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
2564 &quot;fontSize&quot;: 42, # The size of the font.
2565 },
2566 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
2567 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
2568 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
2569 },
2570 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
2571 &quot;bottom&quot;: 42, # The bottom padding of the cell.
2572 &quot;top&quot;: 42, # The top padding of the cell.
2573 &quot;right&quot;: 42, # The right padding of the cell.
2574 &quot;left&quot;: 42, # The left padding of the cell.
2575 },
2576 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002577 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2578 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002579 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2580 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002581 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002582 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002583 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002584 &quot;textFormatRuns&quot;: [ # Runs of rich text applied to subsections of the cell. Runs are only valid on user entered strings, not formulas, bools, or numbers. Properties of a run start at a specific index in the text and continue until the next run. Runs will inherit the properties of the cell unless explicitly changed. When writing, the new runs will overwrite any prior runs. When writing a new user_entered_value, previous runs are erased.
2585 { # A run of a text format. The format of this run continues until the start index of the next run. When updating, all fields must be set.
2586 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of this run. Absent values inherit the cell&#x27;s format.
2587 &quot;bold&quot;: True or False, # True if the text is bold.
2588 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
2589 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
2590 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2591 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2592 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2593 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2594 },
2595 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
2596 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2597 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2598 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2599 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2600 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2601 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2602 },
2603 },
2604 &quot;italic&quot;: True or False, # True if the text is italicized.
2605 &quot;underline&quot;: True or False, # True if the text is underlined.
2606 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
2607 &quot;fontSize&quot;: 42, # The size of the font.
2608 },
2609 &quot;startIndex&quot;: 42, # The character index where this run starts.
2610 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08002611 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08002612 &quot;hyperlink&quot;: &quot;A String&quot;, # A hyperlink this cell points to, if any. If the cell contains multiple hyperlinks, this field will be empty. This field is read-only. To set it, use a `=HYPERLINK` formula in the userEnteredValue.formulaValue field.
2613 &quot;dataSourceTable&quot;: { # A data source table, which allows the user to import a static table of data from the DataSource into Sheets. This is also known as &quot;Extract&quot; in the Sheets editor. # A data source table anchored at this cell. The size of data source table itself is computed dynamically based on its configuration. Only the first cell of the data source table contains the data source table definition. The other cells will contain the display values of the data source table result in their effective_value fields.
2614 &quot;columns&quot;: [ # Columns selected for the data source table. The column_selection_type must be SELECTED.
2615 { # An unique identifier that references a data source column.
2616 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2617 },
2618 ],
2619 &quot;sortSpecs&quot;: [ # Sort specifications in the data source table. The result of the data source table is sorted based on the sort specifications in order.
2620 { # A sort order associated with a specific column or row.
2621 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
2622 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2623 },
2624 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
2625 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
2626 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2627 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2628 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2629 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2630 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2631 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2632 },
2633 },
2634 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
2635 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2636 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2637 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2638 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2639 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2640 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2641 },
2642 },
2643 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
2644 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2645 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2646 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2647 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2648 },
2649 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
2650 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
2651 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2652 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2653 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2654 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2655 },
2656 },
2657 ],
2658 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the data source table is associated with.
2659 &quot;columnSelectionType&quot;: &quot;A String&quot;, # The type to select columns for the data source table. Defaults to SELECTED.
2660 &quot;rowLimit&quot;: 42, # The limit of rows to return. If not set, a default limit is applied. Please refer to the Sheets editor for the default and max limit.
2661 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
2662 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
2663 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
2664 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
2665 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
2666 },
2667 &quot;filterSpecs&quot;: [ # Filter specifications in the data source table.
2668 { # The filter criteria associated with a specific column.
2669 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
2670 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2671 },
2672 &quot;columnIndex&quot;: 42, # The column index.
2673 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
2674 &quot;hiddenValues&quot;: [ # Values that should be hidden.
2675 &quot;A String&quot;,
2676 ],
2677 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
2678 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2679 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2680 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2681 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2682 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2683 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2684 },
2685 },
2686 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
2687 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
2688 { # The value of the condition.
2689 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
2690 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
2691 },
2692 ],
2693 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
2694 },
2695 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
2696 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2697 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2698 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2699 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2700 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2701 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2702 },
2703 },
2704 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
2705 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2706 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2707 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2708 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2709 },
2710 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
2711 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2712 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2713 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2714 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2715 },
2716 },
2717 },
2718 ],
2719 },
2720 &quot;dataSourceFormula&quot;: { # A data source formula. # Output only. Information about a data source formula on the cell. The field is set if user_entered_value is a formula referencing some DATA_SOURCE sheet, e.g `=SUM(DataSheet!Column)`.
2721 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
2722 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
2723 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
2724 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
2725 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
2726 },
2727 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the formula is associated with.
2728 },
2729 &quot;userEnteredValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The value the user entered in the cell. e.g, `1234`, `&#x27;Hello&#x27;`, or `=NOW()` Note: Dates, Times and DateTimes are represented as doubles in serial number format.
2730 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
2731 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
2732 &quot;type&quot;: &quot;A String&quot;, # The type of error.
2733 },
2734 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
2735 &quot;boolValue&quot;: True or False, # Represents a boolean value.
2736 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
2737 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
2738 },
2739 &quot;note&quot;: &quot;A String&quot;, # Any note on the cell.
2740 &quot;dataValidation&quot;: { # A data validation rule. # A data validation rule on the cell, if any. When writing, the new data validation rule will overwrite any prior rule.
2741 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
2742 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
2743 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
2744 { # The value of the condition.
2745 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
2746 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
2747 },
2748 ],
2749 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
2750 },
2751 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
2752 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
2753 },
2754 &quot;effectiveFormat&quot;: { # The format of a cell. # The effective format being used by the cell. This includes the results of applying any conditional formatting and, if the cell contains a formula, the computed number format. If the effective format is the default format, effective format will not be written. This field is read-only.
2755 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
2756 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
2757 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
2758 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
2759 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
2760 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2761 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2762 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2763 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2764 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2765 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2766 },
2767 },
2768 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
2769 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2770 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2771 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2772 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2773 },
2774 },
2775 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
2776 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
2777 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
2778 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
2779 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2780 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2781 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2782 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2783 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2784 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2785 },
2786 },
2787 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
2788 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2789 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2790 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2791 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2792 },
2793 },
2794 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
2795 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
2796 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
2797 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
2798 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2799 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2800 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2801 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2802 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2803 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2804 },
2805 },
2806 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
2807 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2808 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2809 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2810 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2811 },
2812 },
2813 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
2814 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
2815 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
2816 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
2817 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2818 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2819 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2820 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2821 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2822 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2823 },
2824 },
2825 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
2826 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2827 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2828 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2829 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2830 },
2831 },
2832 },
2833 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
2834 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2835 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2836 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2837 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2838 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2839 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2840 },
2841 },
2842 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
2843 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
2844 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
2845 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
2846 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
2847 },
2848 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
2849 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
2850 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
2851 &quot;bold&quot;: True or False, # True if the text is bold.
2852 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
2853 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
2854 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2855 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2856 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2857 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2858 },
2859 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
2860 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
2861 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
2862 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2863 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2864 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2865 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2866 },
2867 },
2868 &quot;italic&quot;: True or False, # True if the text is italicized.
2869 &quot;underline&quot;: True or False, # True if the text is underlined.
2870 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
2871 &quot;fontSize&quot;: 42, # The size of the font.
2872 },
2873 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
2874 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
2875 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
2876 },
2877 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
2878 &quot;bottom&quot;: 42, # The bottom padding of the cell.
2879 &quot;top&quot;: 42, # The top padding of the cell.
2880 &quot;right&quot;: 42, # The right padding of the cell.
2881 &quot;left&quot;: 42, # The left padding of the cell.
2882 },
2883 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
2884 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
2885 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
2886 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
2887 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
2888 },
2889 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
2890 },
2891 &quot;pivotTable&quot;: { # A pivot table. # A pivot table anchored at this cell. The size of pivot table itself is computed dynamically based on its data, grouping, filters, values, etc. Only the top-left cell of the pivot table contains the pivot table definition. The other cells will contain the calculated values of the results of the pivot in their effective_value fields.
2892 &quot;criteria&quot;: { # An optional mapping of filters per source column offset. The filters are applied before aggregating data into the pivot table. The map&#x27;s key is the column offset of the source range that you want to filter, and the value is the criteria for that column. For example, if the source was `C10:E15`, a key of `0` will have the filter for column `C`, whereas the key `1` is for column `D`. This field is deprecated in favor of filter_specs.
2893 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a pivot table.
2894 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
2895 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
2896 { # The value of the condition.
2897 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
2898 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
2899 },
2900 ],
2901 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
2902 },
2903 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
2904 &quot;A String&quot;,
2905 ],
2906 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
2907 },
2908 },
2909 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the pivot table is reading data from.
2910 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
2911 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
2912 &quot;sheetId&quot;: 42, # The sheet this range is on.
2913 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
2914 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
2915 },
2916 &quot;columns&quot;: [ # Each column grouping in the pivot table.
2917 { # A single grouping (either row or column) in a pivot table.
2918 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
2919 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
2920 { # Metadata about a value in a pivot grouping.
2921 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
2922 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
2923 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
2924 &quot;type&quot;: &quot;A String&quot;, # The type of error.
2925 },
2926 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
2927 &quot;boolValue&quot;: True or False, # Represents a boolean value.
2928 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
2929 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
2930 },
2931 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
2932 },
2933 ],
2934 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
2935 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
2936 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
2937 &quot;countLimit&quot;: 42, # The count limit.
2938 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
2939 },
2940 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
2941 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
2942 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
2943 { # The kinds of value that a cell in a spreadsheet can have.
2944 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
2945 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
2946 &quot;type&quot;: &quot;A String&quot;, # The type of error.
2947 },
2948 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
2949 &quot;boolValue&quot;: True or False, # Represents a boolean value.
2950 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
2951 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
2952 },
2953 ],
2954 },
2955 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
2956 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
2957 },
2958 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
2959 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
2960 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
2961 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
2962 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
2963 },
2964 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
2965 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
2966 { # A group name and a list of items from the source data that should be placed in the group with this name.
2967 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
2968 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
2969 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
2970 &quot;type&quot;: &quot;A String&quot;, # The type of error.
2971 },
2972 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
2973 &quot;boolValue&quot;: True or False, # Represents a boolean value.
2974 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
2975 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
2976 },
2977 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
2978 { # The kinds of value that a cell in a spreadsheet can have.
2979 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
2980 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
2981 &quot;type&quot;: &quot;A String&quot;, # The type of error.
2982 },
2983 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
2984 &quot;boolValue&quot;: True or False, # Represents a boolean value.
2985 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
2986 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
2987 },
2988 ],
2989 },
2990 ],
2991 },
2992 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
2993 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
2994 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
2995 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
2996 },
2997 },
2998 },
2999 ],
3000 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the pivot table is reading data from.
3001 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status for data source pivot tables.
3002 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
3003 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
3004 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
3005 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
3006 },
3007 &quot;values&quot;: [ # A list of values to include in the pivot table.
3008 { # The definition of how a value in a pivot table should be calculated.
3009 &quot;summarizeFunction&quot;: &quot;A String&quot;, # A function to summarize the value. If formula is set, the only supported values are SUM and CUSTOM. If sourceColumnOffset is set, then `CUSTOM` is not supported.
3010 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that this value reads from.
3011 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
3012 },
3013 &quot;name&quot;: &quot;A String&quot;, # A name to use for the value.
3014 &quot;calculatedDisplayType&quot;: &quot;A String&quot;, # If specified, indicates that pivot values should be displayed as the result of a calculation with another pivot value. For example, if calculated_display_type is specified as PERCENT_OF_GRAND_TOTAL, all the pivot values are displayed as the percentage of the grand total. In the Sheets editor, this is referred to as &quot;Show As&quot; in the value section of a pivot table.
3015 &quot;formula&quot;: &quot;A String&quot;, # A custom formula to calculate the value. The formula must start with an `=` character.
3016 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this value reads from. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this value refers to column `C`, whereas the offset `1` would refer to column `D`.
3017 },
3018 ],
3019 &quot;filterSpecs&quot;: [ # The filters applied to the source columns before aggregating data for the pivot table. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
3020 { # The pivot table filter criteria associated with a specific source column offset.
3021 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a pivot table. # The criteria for the column.
3022 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
3023 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
3024 { # The value of the condition.
3025 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
3026 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
3027 },
3028 ],
3029 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
3030 },
3031 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
3032 &quot;A String&quot;,
3033 ],
3034 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
3035 },
3036 &quot;columnOffsetIndex&quot;: 42, # The column offset of the source range.
3037 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column.
3038 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
3039 },
3040 },
3041 ],
3042 &quot;valueLayout&quot;: &quot;A String&quot;, # Whether values should be listed horizontally (as columns) or vertically (as rows).
3043 &quot;rows&quot;: [ # Each row grouping in the pivot table.
3044 { # A single grouping (either row or column) in a pivot table.
3045 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
3046 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
3047 { # Metadata about a value in a pivot grouping.
3048 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
3049 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3050 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3051 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3052 },
3053 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3054 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3055 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3056 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3057 },
3058 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
3059 },
3060 ],
3061 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
3062 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
3063 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
3064 &quot;countLimit&quot;: 42, # The count limit.
3065 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
3066 },
3067 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
3068 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
3069 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
3070 { # The kinds of value that a cell in a spreadsheet can have.
3071 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3072 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3073 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3074 },
3075 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3076 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3077 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3078 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3079 },
3080 ],
3081 },
3082 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
3083 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
3084 },
3085 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
3086 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
3087 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
3088 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
3089 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
3090 },
3091 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
3092 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
3093 { # A group name and a list of items from the source data that should be placed in the group with this name.
3094 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
3095 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3096 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3097 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3098 },
3099 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3100 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3101 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3102 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3103 },
3104 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
3105 { # The kinds of value that a cell in a spreadsheet can have.
3106 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3107 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3108 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3109 },
3110 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3111 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3112 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3113 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3114 },
3115 ],
3116 },
3117 ],
3118 },
3119 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
3120 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
3121 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
3122 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
3123 },
3124 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003125 },
3126 ],
3127 },
3128 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003129 ],
3130 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003131 ],
3132 &quot;fields&quot;: &quot;A String&quot;, # The fields of CellData that should be updated. At least one field must be specified. The root is the CellData; &#x27;row.values.&#x27; should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
3133 },
3134 &quot;setDataValidation&quot;: { # Sets a data validation rule to every cell in the range. To clear validation in a range, call this with no rule specified. # Sets data validation for one or more cells.
3135 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the data validation rule should apply to.
3136 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
3137 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
3138 &quot;sheetId&quot;: 42, # The sheet this range is on.
3139 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
3140 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
3141 },
3142 &quot;rule&quot;: { # A data validation rule. # The data validation rule to set on each cell in the range, or empty to clear the data validation in the range.
3143 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
3144 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
3145 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
3146 { # The value of the condition.
3147 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
3148 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
3149 },
3150 ],
3151 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
3152 },
3153 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
3154 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
3155 },
3156 },
3157 &quot;repeatCell&quot;: { # Updates all cells in the range to the values in the given Cell object. Only the fields listed in the fields field are updated; others are unchanged. If writing a cell with a formula, the formula&#x27;s ranges will automatically increment for each field in the range. For example, if writing a cell with formula `=A1` into range B2:C4, B2 would be `=A1`, B3 would be `=A2`, B4 would be `=A3`, C2 would be `=B1`, C3 would be `=B2`, C4 would be `=B3`. To keep the formula&#x27;s ranges static, use the `$` indicator. For example, use the formula `=$A$1` to prevent both the row and the column from incrementing. # Repeats a single cell across a range.
3158 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range to repeat the cell in.
3159 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
3160 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
3161 &quot;sheetId&quot;: 42, # The sheet this range is on.
3162 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
3163 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
3164 },
3165 &quot;cell&quot;: { # Data about a specific cell. # The data to write.
3166 &quot;effectiveValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The effective value of the cell. For cells with formulas, this is the calculated value. For cells with literals, this is the same as the user_entered_value. This field is read-only.
3167 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3168 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3169 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3170 },
3171 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3172 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3173 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3174 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3175 },
3176 &quot;formattedValue&quot;: &quot;A String&quot;, # The formatted value of the cell. This is the value as it&#x27;s shown to the user. This field is read-only.
3177 &quot;userEnteredFormat&quot;: { # The format of a cell. # The format the user entered for the cell. When writing, the new format will be merged with the existing format.
3178 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
3179 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
3180 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
3181 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
3182 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
3183 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3184 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3185 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3186 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3187 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3188 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3189 },
3190 },
3191 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
3192 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3193 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3194 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3195 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3196 },
3197 },
3198 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
3199 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
3200 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
3201 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
3202 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3203 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3204 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3205 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3206 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3207 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3208 },
3209 },
3210 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
3211 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3212 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3213 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3214 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3215 },
3216 },
3217 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
3218 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
3219 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
3220 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
3221 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3222 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3223 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3224 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3225 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3226 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3227 },
3228 },
3229 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
3230 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3231 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3232 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3233 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3234 },
3235 },
3236 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
3237 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
3238 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
3239 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
3240 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3241 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3242 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3243 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3244 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3245 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3246 },
3247 },
3248 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
3249 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3250 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3251 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3252 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3253 },
3254 },
3255 },
3256 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
3257 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3258 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3259 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3260 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3261 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3262 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3263 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003264 },
3265 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
3266 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003267 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
3268 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
3269 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
3270 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003271 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
3272 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
3273 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
3274 &quot;bold&quot;: True or False, # True if the text is bold.
3275 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
3276 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003277 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3278 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003279 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3280 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003281 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003282 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
3283 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3284 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3285 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3286 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3287 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3288 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3289 },
3290 },
3291 &quot;italic&quot;: True or False, # True if the text is italicized.
3292 &quot;underline&quot;: True or False, # True if the text is underlined.
3293 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
3294 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003295 },
3296 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
3297 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
3298 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
3299 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003300 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
3301 &quot;bottom&quot;: 42, # The bottom padding of the cell.
3302 &quot;top&quot;: 42, # The top padding of the cell.
3303 &quot;right&quot;: 42, # The right padding of the cell.
3304 &quot;left&quot;: 42, # The left padding of the cell.
3305 },
3306 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003307 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3308 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003309 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3310 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003311 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003312 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003313 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003314 &quot;textFormatRuns&quot;: [ # Runs of rich text applied to subsections of the cell. Runs are only valid on user entered strings, not formulas, bools, or numbers. Properties of a run start at a specific index in the text and continue until the next run. Runs will inherit the properties of the cell unless explicitly changed. When writing, the new runs will overwrite any prior runs. When writing a new user_entered_value, previous runs are erased.
3315 { # A run of a text format. The format of this run continues until the start index of the next run. When updating, all fields must be set.
3316 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of this run. Absent values inherit the cell&#x27;s format.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003317 &quot;bold&quot;: True or False, # True if the text is bold.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003318 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
3319 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003320 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3321 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003322 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3323 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003324 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003325 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003326 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003327 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003328 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3329 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003330 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3331 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003332 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003333 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003334 &quot;italic&quot;: True or False, # True if the text is italicized.
3335 &quot;underline&quot;: True or False, # True if the text is underlined.
3336 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
3337 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003338 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003339 &quot;startIndex&quot;: 42, # The character index where this run starts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003340 },
3341 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003342 &quot;hyperlink&quot;: &quot;A String&quot;, # A hyperlink this cell points to, if any. If the cell contains multiple hyperlinks, this field will be empty. This field is read-only. To set it, use a `=HYPERLINK` formula in the userEnteredValue.formulaValue field.
3343 &quot;dataSourceTable&quot;: { # A data source table, which allows the user to import a static table of data from the DataSource into Sheets. This is also known as &quot;Extract&quot; in the Sheets editor. # A data source table anchored at this cell. The size of data source table itself is computed dynamically based on its configuration. Only the first cell of the data source table contains the data source table definition. The other cells will contain the display values of the data source table result in their effective_value fields.
3344 &quot;columns&quot;: [ # Columns selected for the data source table. The column_selection_type must be SELECTED.
3345 { # An unique identifier that references a data source column.
3346 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003347 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003348 ],
3349 &quot;sortSpecs&quot;: [ # Sort specifications in the data source table. The result of the data source table is sorted based on the sort specifications in order.
3350 { # A sort order associated with a specific column or row.
3351 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
3352 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003353 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003354 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
3355 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
3356 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3357 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3358 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3359 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3360 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3361 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3362 },
3363 },
3364 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
3365 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3366 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3367 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3368 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3369 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3370 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3371 },
3372 },
3373 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
3374 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3375 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3376 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3377 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3378 },
3379 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
3380 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
3381 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3382 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3383 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3384 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3385 },
3386 },
3387 ],
3388 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the data source table is associated with.
3389 &quot;columnSelectionType&quot;: &quot;A String&quot;, # The type to select columns for the data source table. Defaults to SELECTED.
3390 &quot;rowLimit&quot;: 42, # The limit of rows to return. If not set, a default limit is applied. Please refer to the Sheets editor for the default and max limit.
3391 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
3392 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
3393 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
3394 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
3395 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
3396 },
3397 &quot;filterSpecs&quot;: [ # Filter specifications in the data source table.
3398 { # The filter criteria associated with a specific column.
3399 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
3400 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
3401 },
3402 &quot;columnIndex&quot;: 42, # The column index.
3403 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
3404 &quot;hiddenValues&quot;: [ # Values that should be hidden.
3405 &quot;A String&quot;,
3406 ],
3407 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
3408 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3409 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3410 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3411 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3412 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3413 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3414 },
3415 },
3416 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
3417 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
3418 { # The value of the condition.
3419 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
3420 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
3421 },
3422 ],
3423 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
3424 },
3425 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
3426 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3427 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3428 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3429 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3430 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3431 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3432 },
3433 },
3434 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
3435 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3436 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3437 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3438 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3439 },
3440 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
3441 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3442 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3443 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3444 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3445 },
3446 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003447 },
3448 ],
3449 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003450 &quot;dataSourceFormula&quot;: { # A data source formula. # Output only. Information about a data source formula on the cell. The field is set if user_entered_value is a formula referencing some DATA_SOURCE sheet, e.g `=SUM(DataSheet!Column)`.
3451 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
3452 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
3453 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
3454 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
3455 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003456 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003457 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the formula is associated with.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003458 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003459 &quot;userEnteredValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The value the user entered in the cell. e.g, `1234`, `&#x27;Hello&#x27;`, or `=NOW()` Note: Dates, Times and DateTimes are represented as doubles in serial number format.
3460 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3461 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3462 &quot;type&quot;: &quot;A String&quot;, # The type of error.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003463 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003464 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3465 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3466 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3467 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003468 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003469 &quot;note&quot;: &quot;A String&quot;, # Any note on the cell.
3470 &quot;dataValidation&quot;: { # A data validation rule. # A data validation rule on the cell, if any. When writing, the new data validation rule will overwrite any prior rule.
3471 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
3472 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003473 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
3474 { # The value of the condition.
3475 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
3476 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
3477 },
3478 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003479 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003480 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003481 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
3482 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003483 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003484 &quot;effectiveFormat&quot;: { # The format of a cell. # The effective format being used by the cell. This includes the results of applying any conditional formatting and, if the cell contains a formula, the computed number format. If the effective format is the default format, effective format will not be written. This field is read-only.
3485 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
3486 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
3487 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
3488 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
3489 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
3490 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003491 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003492 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3493 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003494 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3495 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003496 },
3497 },
3498 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
3499 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3500 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3501 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3502 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3503 },
3504 },
3505 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
3506 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
3507 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
3508 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
3509 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3510 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003511 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3512 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003513 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3514 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003515 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003516 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003517 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
3518 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3519 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3520 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3521 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3522 },
3523 },
3524 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
3525 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
3526 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
3527 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
3528 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3529 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3530 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3531 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3532 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3533 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3534 },
3535 },
3536 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
3537 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3538 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3539 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3540 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3541 },
3542 },
3543 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
3544 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
3545 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
3546 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
3547 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3548 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3549 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3550 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3551 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3552 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3553 },
3554 },
3555 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
3556 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3557 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3558 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3559 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3560 },
3561 },
3562 },
3563 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
3564 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3565 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3566 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3567 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3568 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3569 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3570 },
3571 },
3572 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
3573 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
3574 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
3575 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
3576 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
3577 },
3578 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
3579 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
3580 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
3581 &quot;bold&quot;: True or False, # True if the text is bold.
3582 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
3583 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
3584 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3585 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3586 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3587 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3588 },
3589 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
3590 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3591 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3592 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3593 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3594 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3595 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3596 },
3597 },
3598 &quot;italic&quot;: True or False, # True if the text is italicized.
3599 &quot;underline&quot;: True or False, # True if the text is underlined.
3600 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
3601 &quot;fontSize&quot;: 42, # The size of the font.
3602 },
3603 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
3604 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
3605 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
3606 },
3607 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
3608 &quot;bottom&quot;: 42, # The bottom padding of the cell.
3609 &quot;top&quot;: 42, # The top padding of the cell.
3610 &quot;right&quot;: 42, # The right padding of the cell.
3611 &quot;left&quot;: 42, # The left padding of the cell.
3612 },
3613 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
3614 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3615 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3616 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3617 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3618 },
3619 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
3620 },
3621 &quot;pivotTable&quot;: { # A pivot table. # A pivot table anchored at this cell. The size of pivot table itself is computed dynamically based on its data, grouping, filters, values, etc. Only the top-left cell of the pivot table contains the pivot table definition. The other cells will contain the calculated values of the results of the pivot in their effective_value fields.
3622 &quot;criteria&quot;: { # An optional mapping of filters per source column offset. The filters are applied before aggregating data into the pivot table. The map&#x27;s key is the column offset of the source range that you want to filter, and the value is the criteria for that column. For example, if the source was `C10:E15`, a key of `0` will have the filter for column `C`, whereas the key `1` is for column `D`. This field is deprecated in favor of filter_specs.
3623 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a pivot table.
3624 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003625 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
3626 { # The value of the condition.
3627 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
3628 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
3629 },
3630 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003631 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003632 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003633 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
3634 &quot;A String&quot;,
3635 ],
3636 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003637 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003638 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003639 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the pivot table is reading data from.
3640 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
3641 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
3642 &quot;sheetId&quot;: 42, # The sheet this range is on.
3643 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
3644 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003645 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003646 &quot;columns&quot;: [ # Each column grouping in the pivot table.
3647 { # A single grouping (either row or column) in a pivot table.
3648 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
3649 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
3650 { # Metadata about a value in a pivot grouping.
3651 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
3652 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3653 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3654 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3655 },
3656 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3657 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3658 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3659 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3660 },
3661 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
3662 },
3663 ],
3664 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
3665 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
3666 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
3667 &quot;countLimit&quot;: 42, # The count limit.
3668 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
3669 },
3670 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
3671 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
3672 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
3673 { # The kinds of value that a cell in a spreadsheet can have.
3674 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3675 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3676 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3677 },
3678 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3679 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3680 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3681 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3682 },
3683 ],
3684 },
3685 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
3686 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
3687 },
3688 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
3689 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
3690 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
3691 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
3692 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
3693 },
3694 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
3695 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
3696 { # A group name and a list of items from the source data that should be placed in the group with this name.
3697 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
3698 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3699 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3700 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3701 },
3702 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3703 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3704 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3705 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3706 },
3707 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
3708 { # The kinds of value that a cell in a spreadsheet can have.
3709 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3710 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3711 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3712 },
3713 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3714 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3715 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3716 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3717 },
3718 ],
3719 },
3720 ],
3721 },
3722 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
3723 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
3724 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
3725 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
3726 },
3727 },
3728 },
3729 ],
3730 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the pivot table is reading data from.
3731 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status for data source pivot tables.
3732 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
3733 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
3734 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
3735 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
3736 },
3737 &quot;values&quot;: [ # A list of values to include in the pivot table.
3738 { # The definition of how a value in a pivot table should be calculated.
3739 &quot;summarizeFunction&quot;: &quot;A String&quot;, # A function to summarize the value. If formula is set, the only supported values are SUM and CUSTOM. If sourceColumnOffset is set, then `CUSTOM` is not supported.
3740 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that this value reads from.
3741 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
3742 },
3743 &quot;name&quot;: &quot;A String&quot;, # A name to use for the value.
3744 &quot;calculatedDisplayType&quot;: &quot;A String&quot;, # If specified, indicates that pivot values should be displayed as the result of a calculation with another pivot value. For example, if calculated_display_type is specified as PERCENT_OF_GRAND_TOTAL, all the pivot values are displayed as the percentage of the grand total. In the Sheets editor, this is referred to as &quot;Show As&quot; in the value section of a pivot table.
3745 &quot;formula&quot;: &quot;A String&quot;, # A custom formula to calculate the value. The formula must start with an `=` character.
3746 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this value reads from. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this value refers to column `C`, whereas the offset `1` would refer to column `D`.
3747 },
3748 ],
3749 &quot;filterSpecs&quot;: [ # The filters applied to the source columns before aggregating data for the pivot table. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
3750 { # The pivot table filter criteria associated with a specific source column offset.
3751 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a pivot table. # The criteria for the column.
3752 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
3753 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
3754 { # The value of the condition.
3755 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
3756 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
3757 },
3758 ],
3759 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
3760 },
3761 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
3762 &quot;A String&quot;,
3763 ],
3764 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
3765 },
3766 &quot;columnOffsetIndex&quot;: 42, # The column offset of the source range.
3767 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column.
3768 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
3769 },
3770 },
3771 ],
3772 &quot;valueLayout&quot;: &quot;A String&quot;, # Whether values should be listed horizontally (as columns) or vertically (as rows).
3773 &quot;rows&quot;: [ # Each row grouping in the pivot table.
3774 { # A single grouping (either row or column) in a pivot table.
3775 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
3776 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
3777 { # Metadata about a value in a pivot grouping.
3778 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
3779 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3780 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3781 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3782 },
3783 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3784 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3785 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3786 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3787 },
3788 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
3789 },
3790 ],
3791 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
3792 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
3793 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
3794 &quot;countLimit&quot;: 42, # The count limit.
3795 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
3796 },
3797 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
3798 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
3799 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
3800 { # The kinds of value that a cell in a spreadsheet can have.
3801 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3802 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3803 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3804 },
3805 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3806 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3807 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3808 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3809 },
3810 ],
3811 },
3812 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
3813 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
3814 },
3815 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
3816 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
3817 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
3818 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
3819 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
3820 },
3821 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
3822 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
3823 { # A group name and a list of items from the source data that should be placed in the group with this name.
3824 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
3825 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3826 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3827 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3828 },
3829 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3830 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3831 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3832 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3833 },
3834 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
3835 { # The kinds of value that a cell in a spreadsheet can have.
3836 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
3837 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
3838 &quot;type&quot;: &quot;A String&quot;, # The type of error.
3839 },
3840 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
3841 &quot;boolValue&quot;: True or False, # Represents a boolean value.
3842 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
3843 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
3844 },
3845 ],
3846 },
3847 ],
3848 },
3849 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
3850 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
3851 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
3852 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
3853 },
3854 },
3855 },
3856 ],
3857 },
3858 },
3859 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `cell` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
3860 },
3861 &quot;createDeveloperMetadata&quot;: { # A request to create developer metadata. # Creates new developer metadata
3862 &quot;developerMetadata&quot;: { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too. # The developer metadata to create.
3863 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
3864 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
3865 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
3866 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
3867 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
3868 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
3869 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
3870 &quot;sheetId&quot;: 42, # The sheet this span is on.
3871 },
3872 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
3873 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
3874 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
3875 },
3876 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
3877 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003878 },
3879 },
3880 &quot;deleteDimension&quot;: { # Deletes the dimensions from the sheet. # Deletes rows or columns in a sheet.
3881 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The dimensions to delete from the sheet.
3882 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
3883 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08003884 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08003885 &quot;sheetId&quot;: 42, # The sheet this span is on.
3886 },
3887 },
3888 &quot;addBanding&quot;: { # Adds a new banded range to the spreadsheet. # Adds a new banded range
3889 &quot;bandedRange&quot;: { # A banded (alternating colors) range in a sheet. # The banded range to add. The bandedRangeId field is optional; if one is not set, an id will be randomly generated. (It is an error to specify the ID of a range that already exists.)
3890 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range over which these properties are applied.
3891 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
3892 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
3893 &quot;sheetId&quot;: 42, # The sheet this range is on.
3894 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
3895 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
3896 },
3897 &quot;columnProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for column bands. These properties are applied on a column- by-column basis throughout all the columns in the range. At least one of row_properties or column_properties must be specified.
3898 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
3899 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3900 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3901 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3902 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3903 },
3904 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
3905 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3906 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3907 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3908 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3909 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3910 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3911 },
3912 },
3913 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
3914 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3915 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3916 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3917 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3918 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3919 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3920 },
3921 },
3922 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
3923 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3924 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3925 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3926 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3927 },
3928 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
3929 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3930 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3931 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3932 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3933 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3934 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3935 },
3936 },
3937 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
3938 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3939 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3940 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3941 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3942 },
3943 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
3944 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3945 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3946 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3947 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3948 },
3949 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
3950 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3951 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3952 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3953 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3954 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3955 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3956 },
3957 },
3958 },
3959 &quot;rowProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for row bands. These properties are applied on a row-by-row basis throughout all the rows in the range. At least one of row_properties or column_properties must be specified.
3960 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
3961 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3962 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3963 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3964 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3965 },
3966 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
3967 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3968 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3969 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3970 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3971 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3972 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3973 },
3974 },
3975 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
3976 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3977 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3978 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3979 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3980 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3981 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3982 },
3983 },
3984 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
3985 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3986 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3987 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3988 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3989 },
3990 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
3991 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
3992 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
3993 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
3994 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
3995 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
3996 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
3997 },
3998 },
3999 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
4000 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4001 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4002 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4003 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4004 },
4005 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
4006 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4007 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4008 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4009 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4010 },
4011 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
4012 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4013 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4014 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4015 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4016 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4017 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4018 },
4019 },
4020 },
4021 &quot;bandedRangeId&quot;: 42, # The id of the banded range.
4022 },
4023 },
4024 &quot;deleteDuplicates&quot;: { # Removes rows within this range that contain values in the specified columns that are duplicates of values in any previous row. Rows with identical values but different letter cases, formatting, or formulas are considered to be duplicates. This request also removes duplicate rows hidden from view (for example, due to a filter). When removing duplicates, the first instance of each duplicate row scanning from the top downwards is kept in the resulting range. Content outside of the specified range isn&#x27;t removed, and rows considered duplicates do not have to be adjacent to each other in the range. # Removes rows containing duplicate values in specified columns of a cell range.
4025 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range to remove duplicates rows from.
4026 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4027 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4028 &quot;sheetId&quot;: 42, # The sheet this range is on.
4029 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4030 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4031 },
4032 &quot;comparisonColumns&quot;: [ # The columns in the range to analyze for duplicate values. If no columns are selected then all columns are analyzed for duplicates.
4033 { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side.
4034 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
4035 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
4036 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
4037 &quot;sheetId&quot;: 42, # The sheet this span is on.
4038 },
4039 ],
4040 },
4041 &quot;updateNamedRange&quot;: { # Updates properties of the named range with the specified namedRangeId. # Updates a named range.
4042 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `namedRange` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
4043 &quot;namedRange&quot;: { # A named range. # The named range to update with the new properties.
4044 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range.
4045 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this represents.
4046 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4047 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4048 &quot;sheetId&quot;: 42, # The sheet this range is on.
4049 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4050 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4051 },
4052 &quot;name&quot;: &quot;A String&quot;, # The name of the named range.
4053 },
4054 },
4055 &quot;cutPaste&quot;: { # Moves data from the source to the destination. # Cuts data from one area and pastes it to another.
4056 &quot;pasteType&quot;: &quot;A String&quot;, # What kind of data to paste. All the source data will be cut, regardless of what is pasted.
4057 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The source data to cut.
4058 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4059 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4060 &quot;sheetId&quot;: 42, # The sheet this range is on.
4061 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4062 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4063 },
4064 &quot;destination&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The top-left coordinate where the data should be pasted.
4065 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
4066 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
4067 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
4068 },
4069 },
4070 &quot;updateSlicerSpec&quot;: { # Updates a slicer&#x27;s specifications. (This does not move or resize a slicer. To move or resize a slicer use UpdateEmbeddedObjectPositionRequest. # Updates a slicer&#x27;s specifications.
4071 &quot;slicerId&quot;: 42, # The id of the slicer to update.
4072 &quot;spec&quot;: { # The specifications of a slicer. # The specification to apply to the slicer.
4073 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The filtering criteria of the slicer.
4074 &quot;hiddenValues&quot;: [ # Values that should be hidden.
4075 &quot;A String&quot;,
4076 ],
4077 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
4078 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4079 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4080 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4081 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4082 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4083 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4084 },
4085 },
4086 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
4087 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
4088 { # The value of the condition.
4089 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
4090 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
4091 },
4092 ],
4093 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
4094 },
4095 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
4096 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4097 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4098 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4099 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4100 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4101 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4102 },
4103 },
4104 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
4105 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4106 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4107 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4108 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4109 },
4110 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
4111 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4112 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4113 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4114 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4115 },
4116 },
4117 &quot;title&quot;: &quot;A String&quot;, # The title of the slicer.
4118 &quot;dataRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The data range of the slicer.
4119 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4120 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4121 &quot;sheetId&quot;: 42, # The sheet this range is on.
4122 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4123 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4124 },
4125 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format of title in the slicer.
4126 &quot;bold&quot;: True or False, # True if the text is bold.
4127 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
4128 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
4129 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4130 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4131 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4132 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4133 },
4134 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
4135 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4136 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4137 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4138 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4139 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4140 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4141 },
4142 },
4143 &quot;italic&quot;: True or False, # True if the text is italicized.
4144 &quot;underline&quot;: True or False, # True if the text is underlined.
4145 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
4146 &quot;fontSize&quot;: 42, # The size of the font.
4147 },
4148 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the slicer.
4149 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4150 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4151 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4152 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4153 },
4154 &quot;columnIndex&quot;: 42, # The column index in the data table on which the filter is applied to.
4155 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the slicer. If background_color is also set, this field takes precedence.
4156 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4157 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4158 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4159 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4160 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4161 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4162 },
4163 },
4164 &quot;applyToPivotTables&quot;: True or False, # True if the filter should apply to pivot tables. If not set, default to `True`.
4165 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of title in the slicer. If unspecified, defaults to `LEFT`
4166 },
4167 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `SlicerSpec` is implied and should not be specified. A single &quot;*&quot;` can be used as short-hand for listing every field.
4168 },
4169 &quot;autoFill&quot;: { # Fills in more data based on existing data. # Automatically fills in more data based on existing data.
4170 &quot;useAlternateSeries&quot;: True or False, # True if we should generate data with the &quot;alternate&quot; series. This differs based on the type and amount of source data.
4171 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range to autofill. This will examine the range and detect the location that has data and automatically fill that data in to the rest of the range.
4172 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4173 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4174 &quot;sheetId&quot;: 42, # The sheet this range is on.
4175 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4176 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4177 },
4178 &quot;sourceAndDestination&quot;: { # A combination of a source range and how to extend that source. # The source and destination areas to autofill. This explicitly lists the source of the autofill and where to extend that data.
4179 &quot;dimension&quot;: &quot;A String&quot;, # The dimension that data should be filled into.
4180 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The location of the data to use as the source of the autofill.
4181 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4182 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4183 &quot;sheetId&quot;: 42, # The sheet this range is on.
4184 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4185 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4186 },
4187 &quot;fillLength&quot;: 42, # The number of rows or columns that data should be filled into. Positive numbers expand beyond the last row or last column of the source. Negative numbers expand before the first row or first column of the source.
4188 },
4189 },
4190 &quot;unmergeCells&quot;: { # Unmerges cells in the given range. # Unmerges merged cells.
4191 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range within which all cells should be unmerged. If the range spans multiple merges, all will be unmerged. The range must not partially span any merge.
4192 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4193 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4194 &quot;sheetId&quot;: 42, # The sheet this range is on.
4195 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4196 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4197 },
4198 },
4199 &quot;autoResizeDimensions&quot;: { # Automatically resizes one or more dimensions based on the contents of the cells in that dimension. # Automatically resizes one or more dimensions based on the contents of the cells in that dimension.
4200 &quot;dataSourceSheetDimensions&quot;: { # A range along a single dimension on a DATA_SOURCE sheet. # The dimensions on a data source sheet to automatically resize.
4201 &quot;columnReferences&quot;: [ # The columns on the data source sheet.
4202 { # An unique identifier that references a data source column.
4203 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4204 },
4205 ],
4206 &quot;sheetId&quot;: 42, # The ID of the data source sheet the range is on.
4207 },
4208 &quot;dimensions&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The dimensions to automatically resize.
4209 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
4210 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
4211 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
4212 &quot;sheetId&quot;: 42, # The sheet this span is on.
4213 },
4214 },
4215 &quot;appendCells&quot;: { # Adds new cells after the last row with data in a sheet, inserting new rows into the sheet if necessary. # Appends cells after the last row with data in a sheet.
4216 &quot;sheetId&quot;: 42, # The sheet ID to append the data to.
4217 &quot;fields&quot;: &quot;A String&quot;, # The fields of CellData that should be updated. At least one field must be specified. The root is the CellData; &#x27;row.values.&#x27; should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
4218 &quot;rows&quot;: [ # The data to append.
4219 { # Data about each cell in a row.
4220 &quot;values&quot;: [ # The values in the row, one per column.
4221 { # Data about a specific cell.
4222 &quot;effectiveValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The effective value of the cell. For cells with formulas, this is the calculated value. For cells with literals, this is the same as the user_entered_value. This field is read-only.
4223 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4224 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4225 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4226 },
4227 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4228 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4229 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4230 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4231 },
4232 &quot;formattedValue&quot;: &quot;A String&quot;, # The formatted value of the cell. This is the value as it&#x27;s shown to the user. This field is read-only.
4233 &quot;userEnteredFormat&quot;: { # The format of a cell. # The format the user entered for the cell. When writing, the new format will be merged with the existing format.
4234 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
4235 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
4236 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
4237 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
4238 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
4239 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4240 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4241 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4242 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4243 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4244 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4245 },
4246 },
4247 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
4248 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4249 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4250 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4251 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4252 },
4253 },
4254 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
4255 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
4256 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
4257 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
4258 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4259 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4260 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4261 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4262 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4263 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4264 },
4265 },
4266 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
4267 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4268 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4269 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4270 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4271 },
4272 },
4273 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
4274 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
4275 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
4276 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
4277 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4278 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4279 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4280 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4281 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4282 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4283 },
4284 },
4285 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
4286 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4287 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4288 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4289 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4290 },
4291 },
4292 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
4293 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
4294 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
4295 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
4296 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4297 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4298 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4299 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4300 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4301 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4302 },
4303 },
4304 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
4305 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4306 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4307 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4308 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4309 },
4310 },
4311 },
4312 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
4313 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4314 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4315 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4316 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4317 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4318 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4319 },
4320 },
4321 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
4322 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
4323 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
4324 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
4325 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
4326 },
4327 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
4328 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
4329 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
4330 &quot;bold&quot;: True or False, # True if the text is bold.
4331 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
4332 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
4333 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4334 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4335 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4336 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4337 },
4338 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
4339 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4340 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4341 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4342 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4343 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4344 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4345 },
4346 },
4347 &quot;italic&quot;: True or False, # True if the text is italicized.
4348 &quot;underline&quot;: True or False, # True if the text is underlined.
4349 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
4350 &quot;fontSize&quot;: 42, # The size of the font.
4351 },
4352 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
4353 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
4354 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
4355 },
4356 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
4357 &quot;bottom&quot;: 42, # The bottom padding of the cell.
4358 &quot;top&quot;: 42, # The top padding of the cell.
4359 &quot;right&quot;: 42, # The right padding of the cell.
4360 &quot;left&quot;: 42, # The left padding of the cell.
4361 },
4362 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
4363 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4364 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4365 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4366 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4367 },
4368 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
4369 },
4370 &quot;textFormatRuns&quot;: [ # Runs of rich text applied to subsections of the cell. Runs are only valid on user entered strings, not formulas, bools, or numbers. Properties of a run start at a specific index in the text and continue until the next run. Runs will inherit the properties of the cell unless explicitly changed. When writing, the new runs will overwrite any prior runs. When writing a new user_entered_value, previous runs are erased.
4371 { # A run of a text format. The format of this run continues until the start index of the next run. When updating, all fields must be set.
4372 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of this run. Absent values inherit the cell&#x27;s format.
4373 &quot;bold&quot;: True or False, # True if the text is bold.
4374 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
4375 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
4376 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4377 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4378 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4379 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4380 },
4381 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
4382 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4383 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4384 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4385 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4386 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4387 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4388 },
4389 },
4390 &quot;italic&quot;: True or False, # True if the text is italicized.
4391 &quot;underline&quot;: True or False, # True if the text is underlined.
4392 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
4393 &quot;fontSize&quot;: 42, # The size of the font.
4394 },
4395 &quot;startIndex&quot;: 42, # The character index where this run starts.
4396 },
4397 ],
4398 &quot;hyperlink&quot;: &quot;A String&quot;, # A hyperlink this cell points to, if any. If the cell contains multiple hyperlinks, this field will be empty. This field is read-only. To set it, use a `=HYPERLINK` formula in the userEnteredValue.formulaValue field.
4399 &quot;dataSourceTable&quot;: { # A data source table, which allows the user to import a static table of data from the DataSource into Sheets. This is also known as &quot;Extract&quot; in the Sheets editor. # A data source table anchored at this cell. The size of data source table itself is computed dynamically based on its configuration. Only the first cell of the data source table contains the data source table definition. The other cells will contain the display values of the data source table result in their effective_value fields.
4400 &quot;columns&quot;: [ # Columns selected for the data source table. The column_selection_type must be SELECTED.
4401 { # An unique identifier that references a data source column.
4402 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4403 },
4404 ],
4405 &quot;sortSpecs&quot;: [ # Sort specifications in the data source table. The result of the data source table is sorted based on the sort specifications in order.
4406 { # A sort order associated with a specific column or row.
4407 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
4408 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4409 },
4410 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
4411 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
4412 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4413 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4414 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4415 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4416 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4417 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4418 },
4419 },
4420 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
4421 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4422 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4423 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4424 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4425 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4426 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4427 },
4428 },
4429 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
4430 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4431 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4432 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4433 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4434 },
4435 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
4436 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
4437 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4438 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4439 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4440 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4441 },
4442 },
4443 ],
4444 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the data source table is associated with.
4445 &quot;columnSelectionType&quot;: &quot;A String&quot;, # The type to select columns for the data source table. Defaults to SELECTED.
4446 &quot;rowLimit&quot;: 42, # The limit of rows to return. If not set, a default limit is applied. Please refer to the Sheets editor for the default and max limit.
4447 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
4448 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
4449 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
4450 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
4451 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
4452 },
4453 &quot;filterSpecs&quot;: [ # Filter specifications in the data source table.
4454 { # The filter criteria associated with a specific column.
4455 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
4456 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4457 },
4458 &quot;columnIndex&quot;: 42, # The column index.
4459 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
4460 &quot;hiddenValues&quot;: [ # Values that should be hidden.
4461 &quot;A String&quot;,
4462 ],
4463 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
4464 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4465 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4466 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4467 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4468 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4469 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4470 },
4471 },
4472 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
4473 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
4474 { # The value of the condition.
4475 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
4476 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
4477 },
4478 ],
4479 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
4480 },
4481 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
4482 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4483 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4484 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4485 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4486 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4487 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4488 },
4489 },
4490 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
4491 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4492 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4493 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4494 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4495 },
4496 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
4497 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4498 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4499 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4500 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4501 },
4502 },
4503 },
4504 ],
4505 },
4506 &quot;dataSourceFormula&quot;: { # A data source formula. # Output only. Information about a data source formula on the cell. The field is set if user_entered_value is a formula referencing some DATA_SOURCE sheet, e.g `=SUM(DataSheet!Column)`.
4507 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
4508 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
4509 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
4510 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
4511 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
4512 },
4513 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the formula is associated with.
4514 },
4515 &quot;userEnteredValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The value the user entered in the cell. e.g, `1234`, `&#x27;Hello&#x27;`, or `=NOW()` Note: Dates, Times and DateTimes are represented as doubles in serial number format.
4516 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4517 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4518 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4519 },
4520 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4521 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4522 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4523 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4524 },
4525 &quot;note&quot;: &quot;A String&quot;, # Any note on the cell.
4526 &quot;dataValidation&quot;: { # A data validation rule. # A data validation rule on the cell, if any. When writing, the new data validation rule will overwrite any prior rule.
4527 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
4528 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
4529 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
4530 { # The value of the condition.
4531 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
4532 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
4533 },
4534 ],
4535 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
4536 },
4537 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
4538 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
4539 },
4540 &quot;effectiveFormat&quot;: { # The format of a cell. # The effective format being used by the cell. This includes the results of applying any conditional formatting and, if the cell contains a formula, the computed number format. If the effective format is the default format, effective format will not be written. This field is read-only.
4541 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
4542 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
4543 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
4544 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
4545 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
4546 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4547 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4548 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4549 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4550 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4551 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4552 },
4553 },
4554 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
4555 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4556 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4557 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4558 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4559 },
4560 },
4561 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
4562 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
4563 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
4564 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
4565 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4566 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4567 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4568 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4569 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4570 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4571 },
4572 },
4573 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
4574 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4575 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4576 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4577 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4578 },
4579 },
4580 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
4581 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
4582 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
4583 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
4584 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4585 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4586 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4587 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4588 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4589 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4590 },
4591 },
4592 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
4593 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4594 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4595 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4596 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4597 },
4598 },
4599 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
4600 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
4601 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
4602 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
4603 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4604 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4605 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4606 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4607 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4608 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4609 },
4610 },
4611 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
4612 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4613 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4614 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4615 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4616 },
4617 },
4618 },
4619 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
4620 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4621 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4622 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4623 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4624 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4625 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4626 },
4627 },
4628 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
4629 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
4630 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
4631 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
4632 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
4633 },
4634 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
4635 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
4636 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
4637 &quot;bold&quot;: True or False, # True if the text is bold.
4638 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
4639 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
4640 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4641 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4642 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4643 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4644 },
4645 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
4646 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4647 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4648 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4649 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4650 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4651 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4652 },
4653 },
4654 &quot;italic&quot;: True or False, # True if the text is italicized.
4655 &quot;underline&quot;: True or False, # True if the text is underlined.
4656 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
4657 &quot;fontSize&quot;: 42, # The size of the font.
4658 },
4659 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
4660 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
4661 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
4662 },
4663 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
4664 &quot;bottom&quot;: 42, # The bottom padding of the cell.
4665 &quot;top&quot;: 42, # The top padding of the cell.
4666 &quot;right&quot;: 42, # The right padding of the cell.
4667 &quot;left&quot;: 42, # The left padding of the cell.
4668 },
4669 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
4670 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4671 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4672 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4673 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4674 },
4675 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
4676 },
4677 &quot;pivotTable&quot;: { # A pivot table. # A pivot table anchored at this cell. The size of pivot table itself is computed dynamically based on its data, grouping, filters, values, etc. Only the top-left cell of the pivot table contains the pivot table definition. The other cells will contain the calculated values of the results of the pivot in their effective_value fields.
4678 &quot;criteria&quot;: { # An optional mapping of filters per source column offset. The filters are applied before aggregating data into the pivot table. The map&#x27;s key is the column offset of the source range that you want to filter, and the value is the criteria for that column. For example, if the source was `C10:E15`, a key of `0` will have the filter for column `C`, whereas the key `1` is for column `D`. This field is deprecated in favor of filter_specs.
4679 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a pivot table.
4680 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
4681 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
4682 { # The value of the condition.
4683 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
4684 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
4685 },
4686 ],
4687 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
4688 },
4689 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
4690 &quot;A String&quot;,
4691 ],
4692 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
4693 },
4694 },
4695 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the pivot table is reading data from.
4696 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4697 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4698 &quot;sheetId&quot;: 42, # The sheet this range is on.
4699 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4700 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4701 },
4702 &quot;columns&quot;: [ # Each column grouping in the pivot table.
4703 { # A single grouping (either row or column) in a pivot table.
4704 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
4705 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
4706 { # Metadata about a value in a pivot grouping.
4707 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
4708 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4709 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4710 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4711 },
4712 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4713 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4714 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4715 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4716 },
4717 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
4718 },
4719 ],
4720 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
4721 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
4722 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
4723 &quot;countLimit&quot;: 42, # The count limit.
4724 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
4725 },
4726 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
4727 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
4728 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
4729 { # The kinds of value that a cell in a spreadsheet can have.
4730 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4731 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4732 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4733 },
4734 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4735 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4736 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4737 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4738 },
4739 ],
4740 },
4741 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
4742 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4743 },
4744 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
4745 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
4746 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
4747 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
4748 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
4749 },
4750 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
4751 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
4752 { # A group name and a list of items from the source data that should be placed in the group with this name.
4753 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
4754 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4755 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4756 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4757 },
4758 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4759 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4760 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4761 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4762 },
4763 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
4764 { # The kinds of value that a cell in a spreadsheet can have.
4765 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4766 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4767 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4768 },
4769 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4770 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4771 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4772 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4773 },
4774 ],
4775 },
4776 ],
4777 },
4778 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
4779 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
4780 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
4781 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
4782 },
4783 },
4784 },
4785 ],
4786 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the pivot table is reading data from.
4787 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status for data source pivot tables.
4788 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
4789 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
4790 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
4791 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
4792 },
4793 &quot;values&quot;: [ # A list of values to include in the pivot table.
4794 { # The definition of how a value in a pivot table should be calculated.
4795 &quot;summarizeFunction&quot;: &quot;A String&quot;, # A function to summarize the value. If formula is set, the only supported values are SUM and CUSTOM. If sourceColumnOffset is set, then `CUSTOM` is not supported.
4796 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that this value reads from.
4797 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4798 },
4799 &quot;name&quot;: &quot;A String&quot;, # A name to use for the value.
4800 &quot;calculatedDisplayType&quot;: &quot;A String&quot;, # If specified, indicates that pivot values should be displayed as the result of a calculation with another pivot value. For example, if calculated_display_type is specified as PERCENT_OF_GRAND_TOTAL, all the pivot values are displayed as the percentage of the grand total. In the Sheets editor, this is referred to as &quot;Show As&quot; in the value section of a pivot table.
4801 &quot;formula&quot;: &quot;A String&quot;, # A custom formula to calculate the value. The formula must start with an `=` character.
4802 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this value reads from. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this value refers to column `C`, whereas the offset `1` would refer to column `D`.
4803 },
4804 ],
4805 &quot;filterSpecs&quot;: [ # The filters applied to the source columns before aggregating data for the pivot table. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
4806 { # The pivot table filter criteria associated with a specific source column offset.
4807 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a pivot table. # The criteria for the column.
4808 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
4809 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
4810 { # The value of the condition.
4811 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
4812 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
4813 },
4814 ],
4815 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
4816 },
4817 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
4818 &quot;A String&quot;,
4819 ],
4820 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
4821 },
4822 &quot;columnOffsetIndex&quot;: 42, # The column offset of the source range.
4823 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column.
4824 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4825 },
4826 },
4827 ],
4828 &quot;valueLayout&quot;: &quot;A String&quot;, # Whether values should be listed horizontally (as columns) or vertically (as rows).
4829 &quot;rows&quot;: [ # Each row grouping in the pivot table.
4830 { # A single grouping (either row or column) in a pivot table.
4831 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
4832 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
4833 { # Metadata about a value in a pivot grouping.
4834 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
4835 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4836 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4837 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4838 },
4839 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4840 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4841 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4842 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4843 },
4844 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
4845 },
4846 ],
4847 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
4848 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
4849 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
4850 &quot;countLimit&quot;: 42, # The count limit.
4851 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
4852 },
4853 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
4854 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
4855 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
4856 { # The kinds of value that a cell in a spreadsheet can have.
4857 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4858 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4859 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4860 },
4861 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4862 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4863 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4864 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4865 },
4866 ],
4867 },
4868 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
4869 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4870 },
4871 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
4872 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
4873 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
4874 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
4875 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
4876 },
4877 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
4878 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
4879 { # A group name and a list of items from the source data that should be placed in the group with this name.
4880 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
4881 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4882 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4883 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4884 },
4885 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4886 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4887 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4888 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4889 },
4890 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
4891 { # The kinds of value that a cell in a spreadsheet can have.
4892 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
4893 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
4894 &quot;type&quot;: &quot;A String&quot;, # The type of error.
4895 },
4896 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
4897 &quot;boolValue&quot;: True or False, # Represents a boolean value.
4898 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
4899 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
4900 },
4901 ],
4902 },
4903 ],
4904 },
4905 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
4906 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
4907 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
4908 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
4909 },
4910 },
4911 },
4912 ],
4913 },
4914 },
4915 ],
4916 },
4917 ],
4918 },
4919 &quot;addChart&quot;: { # Adds a chart to a sheet in the spreadsheet. # Adds a chart.
4920 &quot;chart&quot;: { # A chart embedded in a sheet. # The chart that should be added to the spreadsheet, including the position where it should be placed. The chartId field is optional; if one is not set, an id will be randomly generated. (It is an error to specify the ID of an embedded object that already exists.)
4921 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the chart.
4922 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
4923 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
4924 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
4925 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
4926 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
4927 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
4928 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
4929 },
4930 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
4931 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
4932 },
4933 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
4934 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
4935 },
4936 &quot;spec&quot;: { # The specifications of a chart. # The specification of the chart.
4937 &quot;subtitleTextPosition&quot;: { # Position settings for text. # The subtitle text position. This field is optional.
4938 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
4939 },
4940 &quot;orgChart&quot;: { # An org chart. Org charts require a unique set of labels in labels and may optionally include parent_labels and tooltips. parent_labels contain, for each node, the label identifying the parent node. tooltips contain, for each node, an optional tooltip. For example, to describe an OrgChart with Alice as the CEO, Bob as the President (reporting to Alice) and Cathy as VP of Sales (also reporting to Alice), have labels contain &quot;Alice&quot;, &quot;Bob&quot;, &quot;Cathy&quot;, parent_labels contain &quot;&quot;, &quot;Alice&quot;, &quot;Alice&quot; and tooltips contain &quot;CEO&quot;, &quot;President&quot;, &quot;VP Sales&quot;. # An org chart specification.
4941 &quot;nodeSize&quot;: &quot;A String&quot;, # The size of the org chart nodes.
4942 &quot;nodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the org chart nodes.
4943 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4944 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4945 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4946 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4947 },
4948 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data containing the label of the parent for the corresponding node. A blank value indicates that the node has no parent and is a top-level node. This field is optional.
4949 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
4950 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
4951 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
4952 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
4953 },
4954 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
4955 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
4956 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
4957 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
4958 },
4959 },
4960 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
4961 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
4962 },
4963 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
4964 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
4965 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
4966 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
4967 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
4968 &quot;sheetId&quot;: 42, # The sheet this range is on.
4969 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
4970 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
4971 },
4972 ],
4973 },
4974 },
4975 &quot;selectedNodeColorStyle&quot;: { # A color value. # The color of the selected org chart nodes. If selected_node_color is also set, this field takes precedence.
4976 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
4977 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
4978 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4979 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4980 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4981 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4982 },
4983 },
4984 &quot;selectedNodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the selected org chart nodes.
4985 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
4986 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
4987 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
4988 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
4989 },
4990 &quot;labels&quot;: { # The data included in a domain or series. # The data containing the labels for all the nodes in the chart. Labels must be unique.
4991 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
4992 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
4993 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
4994 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
4995 },
4996 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
4997 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
4998 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
4999 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5000 },
5001 },
5002 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5003 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5004 },
5005 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5006 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5007 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5008 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5009 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5010 &quot;sheetId&quot;: 42, # The sheet this range is on.
5011 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5012 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5013 },
5014 ],
5015 },
5016 },
5017 &quot;tooltips&quot;: { # The data included in a domain or series. # The data containing the tooltip for the corresponding node. A blank value results in no tooltip being displayed for the node. This field is optional.
5018 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5019 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5020 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5021 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5022 },
5023 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5024 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5025 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5026 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5027 },
5028 },
5029 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5030 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5031 },
5032 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5033 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5034 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5035 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5036 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5037 &quot;sheetId&quot;: 42, # The sheet this range is on.
5038 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5039 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5040 },
5041 ],
5042 },
5043 },
5044 &quot;nodeColorStyle&quot;: { # A color value. # The color of the org chart nodes. If node_color is also set, this field takes precedence.
5045 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5046 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5047 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5048 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5049 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5050 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5051 },
5052 },
5053 },
5054 &quot;fontName&quot;: &quot;A String&quot;, # The name of the font to use by default for all chart text (e.g. title, axis labels, legend). If a font is specified for a specific part of the chart it will override this font name.
5055 &quot;scorecardChart&quot;: { # A scorecard chart. Scorecard charts are used to highlight key performance indicators, known as KPIs, on the spreadsheet. A scorecard chart can represent things like total sales, average cost, or a top selling item. You can specify a single data value, or aggregate over a range of data. Percentage or absolute difference from a baseline value can be highlighted, like changes over time. # A scorecard chart specification.
5056 &quot;customFormatOptions&quot;: { # Custom number formatting options for chart attributes. # Custom formatting options for numeric key/baseline values in scorecard chart. This field is used only when number_format_source is set to CUSTOM. This field is optional.
5057 &quot;prefix&quot;: &quot;A String&quot;, # Custom prefix to be prepended to the chart attribute. This field is optional.
5058 &quot;suffix&quot;: &quot;A String&quot;, # Custom suffix to be appended to the chart attribute. This field is optional.
5059 },
5060 &quot;baselineValueData&quot;: { # The data included in a domain or series. # The data for scorecard baseline value. This field is optional.
5061 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5062 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5063 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5064 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5065 },
5066 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5067 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5068 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5069 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5070 },
5071 },
5072 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5073 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5074 },
5075 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5076 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5077 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5078 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5079 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5080 &quot;sheetId&quot;: 42, # The sheet this range is on.
5081 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5082 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5083 },
5084 ],
5085 },
5086 },
5087 &quot;scaleFactor&quot;: 3.14, # Value to scale scorecard key and baseline value. For example, a factor of 10 can be used to divide all values in the chart by 10. This field is optional.
5088 &quot;baselineValueFormat&quot;: { # Formatting options for baseline value. # Formatting options for baseline value. This field is needed only if baseline_value_data is specified.
5089 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for baseline value.
5090 &quot;bold&quot;: True or False, # True if the text is bold.
5091 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
5092 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
5093 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5094 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5095 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5096 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5097 },
5098 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
5099 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5100 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5101 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5102 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5103 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5104 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5105 },
5106 },
5107 &quot;italic&quot;: True or False, # True if the text is italicized.
5108 &quot;underline&quot;: True or False, # True if the text is underlined.
5109 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
5110 &quot;fontSize&quot;: 42, # The size of the font.
5111 },
5112 &quot;comparisonType&quot;: &quot;A String&quot;, # The comparison type of key value with baseline value.
5113 &quot;negativeColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a negative change for key value. This field is optional. If negative_color is also set, this field takes precedence.
5114 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5115 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5116 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5117 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5118 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5119 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5120 },
5121 },
5122 &quot;positiveColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a positive change for key value. This field is optional. If positive_color is also set, this field takes precedence.
5123 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5124 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5125 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5126 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5127 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5128 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5129 },
5130 },
5131 &quot;description&quot;: &quot;A String&quot;, # Description which is appended after the baseline value. This field is optional.
5132 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of baseline value. This field is optional. If not specified, default positioning is used.
5133 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
5134 },
5135 &quot;negativeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a negative change for key value. This field is optional.
5136 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5137 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5138 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5139 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5140 },
5141 &quot;positiveColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a positive change for key value. This field is optional.
5142 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5143 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5144 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5145 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5146 },
5147 },
5148 &quot;keyValueData&quot;: { # The data included in a domain or series. # The data for scorecard key value.
5149 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5150 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5151 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5152 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5153 },
5154 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5155 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5156 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5157 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5158 },
5159 },
5160 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5161 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5162 },
5163 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5164 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5165 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5166 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5167 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5168 &quot;sheetId&quot;: 42, # The sheet this range is on.
5169 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5170 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5171 },
5172 ],
5173 },
5174 },
5175 &quot;numberFormatSource&quot;: &quot;A String&quot;, # The number format source used in the scorecard chart. This field is optional.
5176 &quot;keyValueFormat&quot;: { # Formatting options for key value. # Formatting options for key value.
5177 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for key value.
5178 &quot;bold&quot;: True or False, # True if the text is bold.
5179 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
5180 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
5181 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5182 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5183 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5184 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5185 },
5186 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
5187 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5188 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5189 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5190 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5191 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5192 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5193 },
5194 },
5195 &quot;italic&quot;: True or False, # True if the text is italicized.
5196 &quot;underline&quot;: True or False, # True if the text is underlined.
5197 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
5198 &quot;fontSize&quot;: 42, # The size of the font.
5199 },
5200 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of key value. This field is optional. If not specified, default positioning is used.
5201 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
5202 },
5203 },
5204 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for key and baseline chart data in scorecard chart. This field is not supported for data source charts. Use the ChartData.aggregateType field of the key_value_data or baseline_value_data instead for data source charts. This field is optional.
5205 },
5206 &quot;sortSpecs&quot;: [ # The order to sort the chart data by. Only a single sort spec is supported. Only supported for data source charts.
5207 { # A sort order associated with a specific column or row.
5208 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
5209 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5210 },
5211 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
5212 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
5213 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5214 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5215 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5216 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5217 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5218 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5219 },
5220 },
5221 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
5222 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5223 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5224 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5225 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5226 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5227 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5228 },
5229 },
5230 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
5231 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5232 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5233 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5234 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5235 },
5236 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
5237 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
5238 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5239 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5240 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5241 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5242 },
5243 },
5244 ],
5245 &quot;title&quot;: &quot;A String&quot;, # The title of the chart.
5246 &quot;titleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The title text format. Strikethrough and underline are not supported.
5247 &quot;bold&quot;: True or False, # True if the text is bold.
5248 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
5249 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
5250 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5251 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5252 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5253 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5254 },
5255 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
5256 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5257 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5258 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5259 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5260 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5261 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5262 },
5263 },
5264 &quot;italic&quot;: True or False, # True if the text is italicized.
5265 &quot;underline&quot;: True or False, # True if the text is underlined.
5266 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
5267 &quot;fontSize&quot;: 42, # The size of the font.
5268 },
5269 &quot;maximized&quot;: True or False, # True to make a chart fill the entire space in which it&#x27;s rendered with minimum padding. False to use the default padding. (Not applicable to Geo and Org charts.)
5270 &quot;dataSourceChartProperties&quot;: { # Properties of a data source chart. # If present, the field contains data source chart specific properties.
5271 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the data source that the chart is associated with.
5272 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
5273 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
5274 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
5275 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
5276 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
5277 },
5278 },
5279 &quot;waterfallChart&quot;: { # A waterfall chart. # A waterfall chart specification.
5280 &quot;hideConnectorLines&quot;: True or False, # True to hide connector lines between columns.
5281 &quot;connectorLineStyle&quot;: { # Properties that describe the style of a line. # The line style for the connector lines.
5282 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
5283 &quot;width&quot;: 42, # The thickness of the line, in px.
5284 },
5285 &quot;series&quot;: [ # The data this waterfall chart is visualizing.
5286 { # A single series of data for a waterfall chart.
5287 &quot;data&quot;: { # The data included in a domain or series. # The data being visualized in this series.
5288 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5289 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5290 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5291 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5292 },
5293 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5294 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5295 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5296 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5297 },
5298 },
5299 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5300 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5301 },
5302 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5303 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5304 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5305 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5306 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5307 &quot;sheetId&quot;: 42, # The sheet this range is on.
5308 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5309 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5310 },
5311 ],
5312 },
5313 },
5314 &quot;subtotalColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all subtotal columns in this series.
5315 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
5316 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
5317 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5318 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5319 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5320 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5321 },
5322 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
5323 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5324 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5325 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5326 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5327 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5328 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5329 },
5330 },
5331 },
5332 &quot;negativeColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with negative values.
5333 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
5334 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
5335 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5336 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5337 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5338 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5339 },
5340 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
5341 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5342 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5343 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5344 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5345 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5346 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5347 },
5348 },
5349 },
5350 &quot;hideTrailingSubtotal&quot;: True or False, # True to hide the subtotal column from the end of the series. By default, a subtotal column will appear at the end of each series. Setting this field to true will hide that subtotal column for this series.
5351 &quot;customSubtotals&quot;: [ # Custom subtotal columns appearing in this series. The order in which subtotals are defined is not significant. Only one subtotal may be defined for each data point.
5352 { # A custom subtotal column for a waterfall chart series.
5353 &quot;subtotalIndex&quot;: 42, # The 0-based index of a data point within the series. If data_is_subtotal is true, the data point at this index is the subtotal. Otherwise, the subtotal appears after the data point with this index. A series can have multiple subtotals at arbitrary indices, but subtotals do not affect the indices of the data points. For example, if a series has three data points, their indices will always be 0, 1, and 2, regardless of how many subtotals exist on the series or what data points they are associated with.
5354 &quot;label&quot;: &quot;A String&quot;, # A label for the subtotal column.
5355 &quot;dataIsSubtotal&quot;: True or False, # True if the data point at subtotal_index is the subtotal. If false, the subtotal will be computed and appear after the data point.
5356 },
5357 ],
5358 &quot;positiveColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with positive values.
5359 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
5360 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
5361 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5362 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5363 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5364 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5365 },
5366 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
5367 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5368 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5369 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5370 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5371 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5372 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5373 },
5374 },
5375 },
5376 },
5377 ],
5378 &quot;domain&quot;: { # The domain of a waterfall chart. # The domain data (horizontal axis) for the waterfall chart.
5379 &quot;data&quot;: { # The data included in a domain or series. # The data of the WaterfallChartDomain.
5380 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5381 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5382 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5383 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5384 },
5385 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5386 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5387 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5388 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5389 },
5390 },
5391 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5392 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5393 },
5394 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5395 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5396 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5397 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5398 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5399 &quot;sheetId&quot;: 42, # The sheet this range is on.
5400 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5401 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5402 },
5403 ],
5404 },
5405 },
5406 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
5407 },
5408 &quot;firstValueIsTotal&quot;: True or False, # True to interpret the first value as a total.
5409 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type.
5410 },
5411 &quot;histogramChart&quot;: { # A histogram chart. A histogram chart groups data items into bins, displaying each bin as a column of stacked items. Histograms are used to display the distribution of a dataset. Each column of items represents a range into which those items fall. The number of bins can be chosen automatically or specified explicitly. # A histogram chart specification.
5412 &quot;series&quot;: [ # The series for a histogram may be either a single series of values to be bucketed or multiple series, each of the same length, containing the name of the series followed by the values to be bucketed for that series.
5413 { # A histogram series containing the series color and data.
5414 &quot;data&quot;: { # The data included in a domain or series. # The data for this histogram series.
5415 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5416 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5417 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5418 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5419 },
5420 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5421 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5422 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5423 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5424 },
5425 },
5426 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5427 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5428 },
5429 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5430 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5431 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5432 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5433 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5434 &quot;sheetId&quot;: 42, # The sheet this range is on.
5435 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5436 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5437 },
5438 ],
5439 },
5440 },
5441 &quot;barColorStyle&quot;: { # A color value. # The color of the column representing this series in each bucket. This field is optional. If bar_color is also set, this field takes precedence.
5442 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5443 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5444 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5445 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5446 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5447 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5448 },
5449 },
5450 &quot;barColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column representing this series in each bucket. This field is optional.
5451 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5452 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5453 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5454 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5455 },
5456 },
5457 ],
5458 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
5459 &quot;showItemDividers&quot;: True or False, # Whether horizontal divider lines should be displayed between items in each column.
5460 &quot;outlierPercentile&quot;: 3.14, # The outlier percentile is used to ensure that outliers do not adversely affect the calculation of bucket sizes. For example, setting an outlier percentile of 0.05 indicates that the top and bottom 5% of values when calculating buckets. The values are still included in the chart, they will be added to the first or last buckets instead of their own buckets. Must be between 0.0 and 0.5.
5461 &quot;bucketSize&quot;: 3.14, # By default the bucket size (the range of values stacked in a single column) is chosen automatically, but it may be overridden here. E.g., A bucket size of 1.5 results in buckets from 0 - 1.5, 1.5 - 3.0, etc. Cannot be negative. This field is optional.
5462 },
5463 &quot;hiddenDimensionStrategy&quot;: &quot;A String&quot;, # Determines how the charts will use hidden rows or columns.
5464 &quot;bubbleChart&quot;: { # A bubble chart. # A bubble chart specification.
5465 &quot;bubbleMaxRadiusSize&quot;: 42, # The max radius size of the bubbles, in pixels. If specified, the field must be a positive value.
5466 &quot;bubbleSizes&quot;: { # The data included in a domain or series. # The data contianing the bubble sizes. Bubble sizes are used to draw the bubbles at different sizes relative to each other. If specified, group_ids must also be specified. This field is optional.
5467 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5468 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5469 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5470 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5471 },
5472 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5473 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5474 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5475 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5476 },
5477 },
5478 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5479 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5480 },
5481 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5482 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5483 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5484 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5485 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5486 &quot;sheetId&quot;: 42, # The sheet this range is on.
5487 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5488 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5489 },
5490 ],
5491 },
5492 },
5493 &quot;groupIds&quot;: { # The data included in a domain or series. # The data containing the bubble group IDs. All bubbles with the same group ID are drawn in the same color. If bubble_sizes is specified then this field must also be specified but may contain blank values. This field is optional.
5494 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5495 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5496 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5497 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5498 },
5499 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5500 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5501 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5502 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5503 },
5504 },
5505 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5506 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5507 },
5508 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5509 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5510 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5511 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5512 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5513 &quot;sheetId&quot;: 42, # The sheet this range is on.
5514 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5515 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5516 },
5517 ],
5518 },
5519 },
5520 &quot;bubbleOpacity&quot;: 3.14, # The opacity of the bubbles between 0 and 1.0. 0 is fully transparent and 1 is fully opaque.
5521 &quot;bubbleLabels&quot;: { # The data included in a domain or series. # The data containing the bubble labels. These do not need to be unique.
5522 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5523 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5524 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5525 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5526 },
5527 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5528 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5529 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5530 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5531 },
5532 },
5533 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5534 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5535 },
5536 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5537 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5538 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5539 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5540 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5541 &quot;sheetId&quot;: 42, # The sheet this range is on.
5542 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5543 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5544 },
5545 ],
5546 },
5547 },
5548 &quot;bubbleBorderColorStyle&quot;: { # A color value. # The bubble border color. If bubble_border_color is also set, this field takes precedence.
5549 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5550 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5551 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5552 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5553 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5554 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5555 },
5556 },
5557 &quot;domain&quot;: { # The data included in a domain or series. # The data containing the bubble x-values. These values locate the bubbles in the chart horizontally.
5558 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5559 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5560 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5561 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5562 },
5563 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5564 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5565 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5566 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5567 },
5568 },
5569 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5570 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5571 },
5572 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5573 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5574 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5575 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5576 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5577 &quot;sheetId&quot;: 42, # The sheet this range is on.
5578 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5579 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5580 },
5581 ],
5582 },
5583 },
5584 &quot;bubbleTextStyle&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text inside the bubbles. Strikethrough and underline are not supported.
5585 &quot;bold&quot;: True or False, # True if the text is bold.
5586 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
5587 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
5588 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5589 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5590 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5591 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5592 },
5593 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
5594 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5595 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5596 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5597 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5598 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5599 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5600 },
5601 },
5602 &quot;italic&quot;: True or False, # True if the text is italicized.
5603 &quot;underline&quot;: True or False, # True if the text is underlined.
5604 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
5605 &quot;fontSize&quot;: 42, # The size of the font.
5606 },
5607 &quot;bubbleMinRadiusSize&quot;: 42, # The minimum radius size of the bubbles, in pixels. If specific, the field must be a positive value.
5608 &quot;bubbleBorderColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The bubble border color.
5609 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5610 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5611 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5612 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5613 },
5614 &quot;series&quot;: { # The data included in a domain or series. # The data contianing the bubble y-values. These values locate the bubbles in the chart vertically.
5615 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5616 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5617 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5618 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5619 },
5620 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5621 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5622 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5623 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5624 },
5625 },
5626 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5627 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5628 },
5629 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5630 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5631 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5632 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5633 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5634 &quot;sheetId&quot;: 42, # The sheet this range is on.
5635 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5636 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5637 },
5638 ],
5639 },
5640 },
5641 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the chart should be drawn.
5642 },
5643 &quot;subtitle&quot;: &quot;A String&quot;, # The subtitle of the chart.
5644 &quot;pieChart&quot;: { # A pie chart. # A pie chart specification.
5645 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the pie chart should be drawn.
5646 &quot;threeDimensional&quot;: True or False, # True if the pie is three dimensional.
5647 &quot;domain&quot;: { # The data included in a domain or series. # The data that covers the domain of the pie chart.
5648 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5649 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5650 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5651 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5652 },
5653 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5654 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5655 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5656 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5657 },
5658 },
5659 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5660 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5661 },
5662 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5663 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5664 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5665 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5666 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5667 &quot;sheetId&quot;: 42, # The sheet this range is on.
5668 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5669 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5670 },
5671 ],
5672 },
5673 },
5674 &quot;pieHole&quot;: 3.14, # The size of the hole in the pie chart.
5675 &quot;series&quot;: { # The data included in a domain or series. # The data that covers the one and only series of the pie chart.
5676 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5677 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5678 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5679 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5680 },
5681 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5682 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5683 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5684 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5685 },
5686 },
5687 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5688 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5689 },
5690 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5691 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5692 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5693 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5694 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5695 &quot;sheetId&quot;: 42, # The sheet this range is on.
5696 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5697 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5698 },
5699 ],
5700 },
5701 },
5702 },
5703 &quot;treemapChart&quot;: { # A Treemap chart. # A treemap chart specification.
5704 &quot;headerColorStyle&quot;: { # A color value. # The background color for header cells. If header_color is also set, this field takes precedence.
5705 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5706 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5707 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5708 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5709 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5710 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5711 },
5712 },
5713 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data the contains the treemap cells&#x27; parent labels.
5714 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5715 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5716 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5717 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5718 },
5719 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5720 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5721 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5722 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5723 },
5724 },
5725 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5726 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5727 },
5728 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5729 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5730 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5731 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5732 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5733 &quot;sheetId&quot;: 42, # The sheet this range is on.
5734 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5735 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5736 },
5737 ],
5738 },
5739 },
5740 &quot;minValue&quot;: 3.14, # The minimum possible data value. Cells with values less than this will have the same color as cells with this value. If not specified, defaults to the actual minimum value from color_data, or the minimum value from size_data if color_data is not specified.
5741 &quot;hintedLevels&quot;: 42, # The number of additional data levels beyond the labeled levels to be shown on the treemap chart. These levels are not interactive and are shown without their labels. Defaults to 0 if not specified.
5742 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for header cells.
5743 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5744 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5745 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5746 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5747 },
5748 &quot;maxValue&quot;: 3.14, # The maximum possible data value. Cells with values greater than this will have the same color as cells with this value. If not specified, defaults to the actual maximum value from color_data, or the maximum value from size_data if color_data is not specified.
5749 &quot;sizeData&quot;: { # The data included in a domain or series. # The data that determines the size of each treemap data cell. This data is expected to be numeric. The cells corresponding to non-numeric or missing data will not be rendered. If color_data is not specified, this data is used to determine data cell background colors as well.
5750 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5751 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5752 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5753 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5754 },
5755 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5756 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5757 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5758 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5759 },
5760 },
5761 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5762 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5763 },
5764 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5765 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5766 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5767 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5768 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5769 &quot;sheetId&quot;: 42, # The sheet this range is on.
5770 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5771 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5772 },
5773 ],
5774 },
5775 },
5776 &quot;labels&quot;: { # The data included in a domain or series. # The data that contains the treemap cell labels.
5777 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5778 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5779 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5780 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5781 },
5782 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5783 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5784 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5785 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5786 },
5787 },
5788 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5789 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5790 },
5791 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5792 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5793 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5794 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5795 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5796 &quot;sheetId&quot;: 42, # The sheet this range is on.
5797 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5798 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5799 },
5800 ],
5801 },
5802 },
5803 &quot;colorData&quot;: { # The data included in a domain or series. # The data that determines the background color of each treemap data cell. This field is optional. If not specified, size_data is used to determine background colors. If specified, the data is expected to be numeric. color_scale will determine how the values in this data map to data cell background colors.
5804 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5805 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5806 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5807 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5808 },
5809 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5810 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5811 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5812 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5813 },
5814 },
5815 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5816 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5817 },
5818 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
5819 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
5820 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
5821 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
5822 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
5823 &quot;sheetId&quot;: 42, # The sheet this range is on.
5824 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
5825 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
5826 },
5827 ],
5828 },
5829 },
5830 &quot;colorScale&quot;: { # A color scale for a treemap chart. # The color scale for data cells in the treemap chart. Data cells are assigned colors based on their color values. These color values come from color_data, or from size_data if color_data is not specified. Cells with color values less than or equal to min_value will have minValueColor as their background color. Cells with color values greater than or equal to max_value will have maxValueColor as their background color. Cells with color values between min_value and max_value will have background colors on a gradient between minValueColor and maxValueColor, the midpoint of the gradient being midValueColor. Cells with missing or non-numeric color values will have noDataColor as their background color.
5831 &quot;midValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified.
5832 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5833 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5834 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5835 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5836 },
5837 &quot;maxValueColorStyle&quot;: { # A color value. # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified. If max_value_color is also set, this field takes precedence.
5838 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5839 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5840 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5841 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5842 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5843 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5844 },
5845 },
5846 &quot;minValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified.
5847 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5848 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5849 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5850 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5851 },
5852 &quot;noDataColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified.
5853 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5854 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5855 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5856 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5857 },
5858 &quot;noDataColorStyle&quot;: { # A color value. # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified. If no_data_color is also set, this field takes precedence.
5859 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5860 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5861 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5862 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5863 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5864 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5865 },
5866 },
5867 &quot;midValueColorStyle&quot;: { # A color value. # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified. If mid_value_color is also set, this field takes precedence.
5868 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5869 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5870 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5871 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5872 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5873 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5874 },
5875 },
5876 &quot;maxValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified.
5877 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5878 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5879 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5880 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5881 },
5882 &quot;minValueColorStyle&quot;: { # A color value. # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified. If min_value_color is also set, this field takes precedence.
5883 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5884 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5885 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5886 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5887 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5888 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5889 },
5890 },
5891 },
5892 &quot;hideTooltips&quot;: True or False, # True to hide tooltips.
5893 &quot;levels&quot;: 42, # The number of data levels to show on the treemap chart. These levels are interactive and are shown with their labels. Defaults to 2 if not specified.
5894 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format for all labels on the chart.
5895 &quot;bold&quot;: True or False, # True if the text is bold.
5896 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
5897 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
5898 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5899 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5900 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5901 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5902 },
5903 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
5904 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5905 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5906 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5907 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5908 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5909 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5910 },
5911 },
5912 &quot;italic&quot;: True or False, # True if the text is italicized.
5913 &quot;underline&quot;: True or False, # True if the text is underlined.
5914 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
5915 &quot;fontSize&quot;: 42, # The size of the font.
5916 },
5917 },
5918 &quot;titleTextPosition&quot;: { # Position settings for text. # The title text position. This field is optional.
5919 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
5920 },
5921 &quot;altText&quot;: &quot;A String&quot;, # The alternative text that describes the chart. This is often used for accessibility.
5922 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the entire chart. Not applicable to Org charts. If background_color is also set, this field takes precedence.
5923 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5924 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5925 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5926 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5927 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5928 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5929 },
5930 },
5931 &quot;filterSpecs&quot;: [ # The filters applied to the source data of the chart. Only supported for data source charts.
5932 { # The filter criteria associated with a specific column.
5933 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
5934 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
5935 },
5936 &quot;columnIndex&quot;: 42, # The column index.
5937 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
5938 &quot;hiddenValues&quot;: [ # Values that should be hidden.
5939 &quot;A String&quot;,
5940 ],
5941 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
5942 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5943 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5944 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5945 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5946 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5947 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5948 },
5949 },
5950 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
5951 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
5952 { # The value of the condition.
5953 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
5954 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
5955 },
5956 ],
5957 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
5958 },
5959 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
5960 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
5961 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
5962 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5963 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5964 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5965 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5966 },
5967 },
5968 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
5969 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5970 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5971 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5972 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5973 },
5974 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
5975 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
5976 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
5977 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
5978 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
5979 },
5980 },
5981 },
5982 ],
5983 &quot;candlestickChart&quot;: { # A candlestick chart. # A candlestick chart specification.
5984 &quot;domain&quot;: { # The domain of a CandlestickChart. # The domain data (horizontal axis) for the candlestick chart. String data will be treated as discrete labels, other data will be treated as continuous values.
5985 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
5986 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickDomain.
5987 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
5988 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
5989 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
5990 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
5991 },
5992 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
5993 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
5994 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
5995 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
5996 },
5997 },
5998 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
5999 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6000 },
6001 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
6002 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
6003 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
6004 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6005 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6006 &quot;sheetId&quot;: 42, # The sheet this range is on.
6007 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6008 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6009 },
6010 ],
6011 },
6012 },
6013 },
6014 &quot;data&quot;: [ # The Candlestick chart data. Only one CandlestickData is supported.
6015 { # The Candlestick chart data, each containing the low, open, close, and high values for a series.
6016 &quot;openSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the open/initial value for each candle. This is the bottom of the candle body. If less than the close value the candle will be filled. Otherwise the candle will be hollow.
6017 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
6018 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
6019 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
6020 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
6021 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
6022 },
6023 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
6024 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
6025 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
6026 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
6027 },
6028 },
6029 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
6030 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6031 },
6032 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
6033 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
6034 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
6035 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6036 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6037 &quot;sheetId&quot;: 42, # The sheet this range is on.
6038 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6039 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6040 },
6041 ],
6042 },
6043 },
6044 },
6045 &quot;highSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the high/maximum value for each candle. This is the top of the candle&#x27;s center line.
6046 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
6047 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
6048 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
6049 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
6050 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
6051 },
6052 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
6053 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
6054 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
6055 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
6056 },
6057 },
6058 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
6059 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6060 },
6061 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
6062 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
6063 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
6064 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6065 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6066 &quot;sheetId&quot;: 42, # The sheet this range is on.
6067 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6068 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6069 },
6070 ],
6071 },
6072 },
6073 },
6074 &quot;lowSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the low/minimum value for each candle. This is the bottom of the candle&#x27;s center line.
6075 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
6076 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
6077 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
6078 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
6079 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
6080 },
6081 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
6082 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
6083 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
6084 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
6085 },
6086 },
6087 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
6088 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6089 },
6090 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
6091 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
6092 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
6093 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6094 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6095 &quot;sheetId&quot;: 42, # The sheet this range is on.
6096 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6097 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6098 },
6099 ],
6100 },
6101 },
6102 },
6103 &quot;closeSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the close/final value for each candle. This is the top of the candle body. If greater than the open value the candle will be filled. Otherwise the candle will be hollow.
6104 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
6105 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
6106 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
6107 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
6108 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
6109 },
6110 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
6111 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
6112 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
6113 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
6114 },
6115 },
6116 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
6117 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6118 },
6119 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
6120 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
6121 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
6122 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6123 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6124 &quot;sheetId&quot;: 42, # The sheet this range is on.
6125 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6126 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6127 },
6128 ],
6129 },
6130 },
6131 },
6132 },
6133 ],
6134 },
6135 &quot;basicChart&quot;: { # The specification for a basic chart. See BasicChartType for the list of charts this supports. # A basic chart specification, can be one of many kinds of charts. See BasicChartType for the list of all charts this supports.
6136 &quot;domains&quot;: [ # The domain of data this is charting. Only a single domain is supported.
6137 { # The domain of a chart. For example, if charting stock prices over time, this would be the date.
6138 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
6139 &quot;domain&quot;: { # The data included in a domain or series. # The data of the domain. For example, if charting stock prices over time, this is the data representing the dates.
6140 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
6141 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
6142 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
6143 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
6144 },
6145 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
6146 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
6147 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
6148 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
6149 },
6150 },
6151 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
6152 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6153 },
6154 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
6155 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
6156 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
6157 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6158 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6159 &quot;sheetId&quot;: 42, # The sheet this range is on.
6160 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6161 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6162 },
6163 ],
6164 },
6165 },
6166 },
6167 ],
6168 &quot;compareMode&quot;: &quot;A String&quot;, # The behavior of tooltips and data highlighting when hovering on data and chart area.
6169 &quot;axis&quot;: [ # The axis on the chart.
6170 { # An axis of the chart. A chart may not have more than one axis per axis position.
6171 &quot;title&quot;: &quot;A String&quot;, # The title of this axis. If set, this overrides any title inferred from headers of the data.
6172 &quot;position&quot;: &quot;A String&quot;, # The position of this axis.
6173 &quot;titleTextPosition&quot;: { # Position settings for text. # The axis title text position.
6174 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
6175 },
6176 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the title. Only valid if the axis is not associated with the domain.
6177 &quot;bold&quot;: True or False, # True if the text is bold.
6178 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
6179 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
6180 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6181 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6182 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6183 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6184 },
6185 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
6186 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6187 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6188 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6189 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6190 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6191 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6192 },
6193 },
6194 &quot;italic&quot;: True or False, # True if the text is italicized.
6195 &quot;underline&quot;: True or False, # True if the text is underlined.
6196 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
6197 &quot;fontSize&quot;: 42, # The size of the font.
6198 },
6199 &quot;viewWindowOptions&quot;: { # The options that define a &quot;view window&quot; for a chart (such as the visible values in an axis). # The view window options for this axis.
6200 &quot;viewWindowMax&quot;: 3.14, # The maximum numeric value to be shown in this view window. If unset, will automatically determine a maximum value that looks good for the data.
6201 &quot;viewWindowMin&quot;: 3.14, # The minimum numeric value to be shown in this view window. If unset, will automatically determine a minimum value that looks good for the data.
6202 &quot;viewWindowMode&quot;: &quot;A String&quot;, # The view window&#x27;s mode.
6203 },
6204 },
6205 ],
6206 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
6207 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type for charts that support vertical stacking. Applies to Area, Bar, Column, Combo, and Stepped Area charts.
6208 &quot;threeDimensional&quot;: True or False, # True to make the chart 3D. Applies to Bar and Column charts.
6209 &quot;interpolateNulls&quot;: True or False, # If some values in a series are missing, gaps may appear in the chart (e.g, segments of lines in a line chart will be missing). To eliminate these gaps set this to true. Applies to Line, Area, and Combo charts.
6210 &quot;series&quot;: [ # The data this chart is visualizing.
6211 { # A single series of data in a chart. For example, if charting stock prices over time, multiple series may exist, one for the &quot;Open Price&quot;, &quot;High Price&quot;, &quot;Low Price&quot; and &quot;Close Price&quot;.
6212 &quot;series&quot;: { # The data included in a domain or series. # The data being visualized in this chart series.
6213 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
6214 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
6215 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
6216 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
6217 },
6218 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
6219 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
6220 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
6221 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
6222 },
6223 },
6224 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
6225 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6226 },
6227 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
6228 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
6229 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
6230 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6231 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6232 &quot;sheetId&quot;: 42, # The sheet this range is on.
6233 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6234 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6235 },
6236 ],
6237 },
6238 },
6239 &quot;type&quot;: &quot;A String&quot;, # The type of this series. Valid only if the chartType is COMBO. Different types will change the way the series is visualized. Only LINE, AREA, and COLUMN are supported.
6240 &quot;targetAxis&quot;: &quot;A String&quot;, # The minor axis that will specify the range of values for this series. For example, if charting stocks over time, the &quot;Volume&quot; series may want to be pinned to the right with the prices pinned to the left, because the scale of trading volume is different than the scale of prices. It is an error to specify an axis that isn&#x27;t a valid minor axis for the chart&#x27;s type.
6241 &quot;colorStyle&quot;: { # A color value. # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used. If color is also set, this field takes precedence.
6242 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6243 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6244 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6245 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6246 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6247 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6248 },
6249 },
6250 &quot;lineStyle&quot;: { # Properties that describe the style of a line. # The line style of this series. Valid only if the chartType is AREA, LINE, or SCATTER. COMBO charts are also supported if the series chart type is AREA or LINE.
6251 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
6252 &quot;width&quot;: 42, # The thickness of the line, in px.
6253 },
6254 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used.
6255 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6256 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6257 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6258 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6259 },
6260 },
6261 ],
6262 &quot;chartType&quot;: &quot;A String&quot;, # The type of the chart.
6263 &quot;headerCount&quot;: 42, # The number of rows or columns in the data that are &quot;headers&quot;. If not set, Google Sheets will guess how many rows are headers based on the data. (Note that BasicChartAxis.title may override the axis title inferred from the header values.)
6264 &quot;lineSmoothing&quot;: True or False, # Gets whether all lines should be rendered smooth or straight by default. Applies to Line charts.
6265 },
6266 &quot;subtitleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The subtitle text format. Strikethrough and underline are not supported.
6267 &quot;bold&quot;: True or False, # True if the text is bold.
6268 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
6269 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
6270 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6271 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6272 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6273 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6274 },
6275 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
6276 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6277 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6278 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6279 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6280 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6281 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6282 },
6283 },
6284 &quot;italic&quot;: True or False, # True if the text is italicized.
6285 &quot;underline&quot;: True or False, # True if the text is underlined.
6286 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
6287 &quot;fontSize&quot;: 42, # The size of the font.
6288 },
6289 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the entire chart. Not applicable to Org charts.
6290 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6291 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6292 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6293 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6294 },
6295 },
6296 &quot;chartId&quot;: 42, # The ID of the chart.
6297 },
6298 },
6299 &quot;pasteData&quot;: { # Inserts data into the spreadsheet starting at the specified coordinate. # Pastes data (HTML or delimited) into a sheet.
6300 &quot;type&quot;: &quot;A String&quot;, # How the data should be pasted.
6301 &quot;data&quot;: &quot;A String&quot;, # The data to insert.
6302 &quot;delimiter&quot;: &quot;A String&quot;, # The delimiter in the data.
6303 &quot;html&quot;: True or False, # True if the data is HTML.
6304 &quot;coordinate&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The coordinate at which the data should start being inserted.
6305 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
6306 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
6307 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
6308 },
6309 },
6310 &quot;updateBanding&quot;: { # Updates properties of the supplied banded range. # Updates a banded range
6311 &quot;bandedRange&quot;: { # A banded (alternating colors) range in a sheet. # The banded range to update with the new properties.
6312 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range over which these properties are applied.
6313 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6314 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6315 &quot;sheetId&quot;: 42, # The sheet this range is on.
6316 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6317 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6318 },
6319 &quot;columnProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for column bands. These properties are applied on a column- by-column basis throughout all the columns in the range. At least one of row_properties or column_properties must be specified.
6320 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
6321 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6322 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6323 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6324 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6325 },
6326 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
6327 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6328 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6329 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6330 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6331 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6332 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6333 },
6334 },
6335 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
6336 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6337 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6338 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6339 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6340 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6341 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6342 },
6343 },
6344 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
6345 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6346 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6347 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6348 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6349 },
6350 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
6351 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6352 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6353 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6354 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6355 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6356 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6357 },
6358 },
6359 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
6360 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6361 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6362 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6363 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6364 },
6365 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
6366 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6367 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6368 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6369 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6370 },
6371 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
6372 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6373 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6374 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6375 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6376 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6377 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6378 },
6379 },
6380 },
6381 &quot;rowProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for row bands. These properties are applied on a row-by-row basis throughout all the rows in the range. At least one of row_properties or column_properties must be specified.
6382 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
6383 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6384 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6385 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6386 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6387 },
6388 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
6389 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6390 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6391 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6392 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6393 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6394 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6395 },
6396 },
6397 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
6398 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6399 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6400 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6401 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6402 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6403 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6404 },
6405 },
6406 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
6407 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6408 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6409 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6410 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6411 },
6412 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
6413 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6414 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6415 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6416 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6417 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6418 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6419 },
6420 },
6421 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
6422 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6423 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6424 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6425 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6426 },
6427 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
6428 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6429 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6430 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6431 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6432 },
6433 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
6434 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6435 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6436 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6437 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6438 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6439 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6440 },
6441 },
6442 },
6443 &quot;bandedRangeId&quot;: 42, # The id of the banded range.
6444 },
6445 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `bandedRange` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
6446 },
6447 &quot;updateSpreadsheetProperties&quot;: { # Updates properties of a spreadsheet. # Updates the spreadsheet&#x27;s properties.
6448 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root &#x27;properties&#x27; is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
6449 &quot;properties&quot;: { # Properties of a spreadsheet. # The properties to update.
6450 &quot;timeZone&quot;: &quot;A String&quot;, # The time zone of the spreadsheet, in CLDR format such as `America/New_York`. If the time zone isn&#x27;t recognized, this may be a custom time zone such as `GMT-07:00`.
6451 &quot;defaultFormat&quot;: { # The format of a cell. # The default format of all cells in the spreadsheet. CellData.effectiveFormat will not be set if the cell&#x27;s format is equal to this default format. This field is read-only.
6452 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
6453 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
6454 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
6455 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
6456 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
6457 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6458 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6459 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6460 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6461 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6462 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6463 },
6464 },
6465 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
6466 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6467 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6468 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6469 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6470 },
6471 },
6472 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
6473 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
6474 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
6475 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
6476 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6477 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6478 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6479 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6480 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6481 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6482 },
6483 },
6484 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
6485 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6486 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6487 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6488 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6489 },
6490 },
6491 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
6492 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
6493 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
6494 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
6495 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6496 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6497 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6498 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6499 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6500 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6501 },
6502 },
6503 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
6504 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6505 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6506 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6507 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6508 },
6509 },
6510 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
6511 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
6512 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
6513 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
6514 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6515 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6516 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6517 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6518 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6519 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6520 },
6521 },
6522 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
6523 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6524 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6525 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6526 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6527 },
6528 },
6529 },
6530 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
6531 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6532 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6533 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6534 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6535 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6536 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6537 },
6538 },
6539 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
6540 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
6541 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
6542 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
6543 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
6544 },
6545 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
6546 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
6547 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
6548 &quot;bold&quot;: True or False, # True if the text is bold.
6549 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
6550 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
6551 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6552 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6553 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6554 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6555 },
6556 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
6557 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6558 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6559 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6560 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6561 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6562 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6563 },
6564 },
6565 &quot;italic&quot;: True or False, # True if the text is italicized.
6566 &quot;underline&quot;: True or False, # True if the text is underlined.
6567 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
6568 &quot;fontSize&quot;: 42, # The size of the font.
6569 },
6570 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
6571 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
6572 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
6573 },
6574 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
6575 &quot;bottom&quot;: 42, # The bottom padding of the cell.
6576 &quot;top&quot;: 42, # The top padding of the cell.
6577 &quot;right&quot;: 42, # The right padding of the cell.
6578 &quot;left&quot;: 42, # The left padding of the cell.
6579 },
6580 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
6581 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6582 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6583 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6584 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6585 },
6586 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
6587 },
6588 &quot;locale&quot;: &quot;A String&quot;, # The locale of the spreadsheet in one of the following formats: * an ISO 639-1 language code such as `en` * an ISO 639-2 language code such as `fil`, if no 639-1 code exists * a combination of the ISO language code and country code, such as `en_US` Note: when updating this field, not all locales/languages are supported.
6589 &quot;iterativeCalculationSettings&quot;: { # Settings to control how circular dependencies are resolved with iterative calculation. # Determines whether and how circular references are resolved with iterative calculation. Absence of this field means that circular references result in calculation errors.
6590 &quot;maxIterations&quot;: 42, # When iterative calculation is enabled, the maximum number of calculation rounds to perform.
6591 &quot;convergenceThreshold&quot;: 3.14, # When iterative calculation is enabled and successive results differ by less than this threshold value, the calculation rounds stop.
6592 },
6593 &quot;title&quot;: &quot;A String&quot;, # The title of the spreadsheet.
6594 &quot;spreadsheetTheme&quot;: { # Represents spreadsheet theme # Theme applied to the spreadsheet.
6595 &quot;themeColors&quot;: [ # The spreadsheet theme color pairs. To update you must provide all theme color pairs.
6596 { # A pair mapping a spreadsheet theme color type to the concrete color it represents.
6597 &quot;colorType&quot;: &quot;A String&quot;, # The type of the spreadsheet theme color.
6598 &quot;color&quot;: { # A color value. # The concrete color corresponding to the theme color type.
6599 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6600 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6601 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6602 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6603 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6604 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6605 },
6606 },
6607 },
6608 ],
6609 &quot;primaryFontFamily&quot;: &quot;A String&quot;, # Name of the primary font family.
6610 },
6611 &quot;autoRecalc&quot;: &quot;A String&quot;, # The amount of time to wait before volatile functions are recalculated.
6612 },
6613 },
6614 &quot;moveDimension&quot;: { # Moves one or more rows or columns. # Moves rows or columns to another location in a sheet.
6615 &quot;source&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The source dimensions to move.
6616 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
6617 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
6618 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
6619 &quot;sheetId&quot;: 42, # The sheet this span is on.
6620 },
6621 &quot;destinationIndex&quot;: 42, # The zero-based start index of where to move the source data to, based on the coordinates *before* the source data is removed from the grid. Existing data will be shifted down or right (depending on the dimension) to make room for the moved dimensions. The source dimensions are removed from the grid, so the the data may end up in a different index than specified. For example, given `A1..A5` of `0, 1, 2, 3, 4` and wanting to move `&quot;1&quot;` and `&quot;2&quot;` to between `&quot;3&quot;` and `&quot;4&quot;`, the source would be `ROWS [1..3)`,and the destination index would be `&quot;4&quot;` (the zero-based index of row 5). The end result would be `A1..A5` of `0, 3, 1, 2, 4`.
6622 },
6623 &quot;deleteBanding&quot;: { # Removes the banded range with the given ID from the spreadsheet. # Removes a banded range
6624 &quot;bandedRangeId&quot;: 42, # The ID of the banded range to delete.
6625 },
6626 &quot;updateDimensionGroup&quot;: { # Updates the state of the specified group. # Updates the state of the specified group.
6627 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `dimensionGroup` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
6628 &quot;dimensionGroup&quot;: { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet. # The group whose state should be updated. The range and depth of the group should specify a valid group on the sheet, and all other fields updated.
6629 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
6630 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
6631 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
6632 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
6633 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
6634 &quot;sheetId&quot;: 42, # The sheet this span is on.
6635 },
6636 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
6637 },
6638 },
6639 &quot;deleteFilterView&quot;: { # Deletes a particular filter view. # Deletes a filter view from a sheet.
6640 &quot;filterId&quot;: 42, # The ID of the filter to delete.
6641 },
6642 &quot;addSlicer&quot;: { # Adds a slicer to a sheet in the spreadsheet. # Adds a slicer.
6643 &quot;slicer&quot;: { # A slicer in a sheet. # The slicer that should be added to the spreadsheet, including the position where it should be placed. The slicerId field is optional; if one is not set, an id will be randomly generated. (It is an error to specify the ID of a slicer that already exists.)
6644 &quot;slicerId&quot;: 42, # The ID of the slicer.
6645 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the slicer. Note that slicer can be positioned only on existing sheet. Also, width and height of slicer can be automatically adjusted to keep it within permitted limits.
6646 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
6647 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
6648 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
6649 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
6650 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
6651 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
6652 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
6653 },
6654 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
6655 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
6656 },
6657 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
6658 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
6659 },
6660 &quot;spec&quot;: { # The specifications of a slicer. # The specification of the slicer.
6661 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The filtering criteria of the slicer.
6662 &quot;hiddenValues&quot;: [ # Values that should be hidden.
6663 &quot;A String&quot;,
6664 ],
6665 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
6666 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6667 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6668 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6669 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6670 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6671 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6672 },
6673 },
6674 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
6675 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
6676 { # The value of the condition.
6677 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
6678 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
6679 },
6680 ],
6681 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
6682 },
6683 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
6684 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6685 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6686 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6687 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6688 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6689 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6690 },
6691 },
6692 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
6693 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6694 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6695 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6696 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6697 },
6698 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
6699 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6700 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6701 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6702 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6703 },
6704 },
6705 &quot;title&quot;: &quot;A String&quot;, # The title of the slicer.
6706 &quot;dataRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The data range of the slicer.
6707 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6708 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6709 &quot;sheetId&quot;: 42, # The sheet this range is on.
6710 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6711 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6712 },
6713 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format of title in the slicer.
6714 &quot;bold&quot;: True or False, # True if the text is bold.
6715 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
6716 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
6717 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6718 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6719 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6720 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6721 },
6722 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
6723 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6724 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6725 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6726 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6727 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6728 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6729 },
6730 },
6731 &quot;italic&quot;: True or False, # True if the text is italicized.
6732 &quot;underline&quot;: True or False, # True if the text is underlined.
6733 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
6734 &quot;fontSize&quot;: 42, # The size of the font.
6735 },
6736 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the slicer.
6737 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6738 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6739 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6740 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6741 },
6742 &quot;columnIndex&quot;: 42, # The column index in the data table on which the filter is applied to.
6743 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the slicer. If background_color is also set, this field takes precedence.
6744 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6745 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6746 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6747 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6748 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6749 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6750 },
6751 },
6752 &quot;applyToPivotTables&quot;: True or False, # True if the filter should apply to pivot tables. If not set, default to `True`.
6753 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of title in the slicer. If unspecified, defaults to `LEFT`
6754 },
6755 },
6756 },
6757 &quot;addDataSource&quot;: { # Adds a data source. After the data source is added successfully, an associated DATA_SOURCE sheet is created and an execution is triggered to refresh the sheet to read data from the data source. The request requires an additional `bigquery.readonly` OAuth scope. # Adds a data source.
6758 &quot;dataSource&quot;: { # Information about an external data source in the spreadsheet. # The data source to add.
6759 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
6760 { # A column in a data source.
6761 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
6762 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6763 },
6764 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
6765 },
6766 ],
6767 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
6768 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
6769 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
6770 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
6771 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
6772 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
6773 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6774 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6775 &quot;sheetId&quot;: 42, # The sheet this range is on.
6776 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6777 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6778 },
6779 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
6780 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
6781 },
6782 ],
6783 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
6784 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
6785 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
6786 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
6787 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
6788 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
6789 },
6790 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
6791 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
6792 },
6793 },
6794 },
6795 },
6796 },
6797 &quot;updateDimensionProperties&quot;: { # Updates properties of dimensions within the specified range. # Updates dimensions&#x27; properties.
6798 &quot;dataSourceSheetRange&quot;: { # A range along a single dimension on a DATA_SOURCE sheet. # The columns on a data source sheet to update.
6799 &quot;columnReferences&quot;: [ # The columns on the data source sheet.
6800 { # An unique identifier that references a data source column.
6801 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6802 },
6803 ],
6804 &quot;sheetId&quot;: 42, # The ID of the data source sheet the range is on.
6805 },
6806 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The rows or columns to update.
6807 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
6808 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
6809 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
6810 &quot;sheetId&quot;: 42, # The sheet this span is on.
6811 },
6812 &quot;properties&quot;: { # Properties about a dimension. # Properties to update.
6813 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
6814 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
6815 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6816 },
6817 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
6818 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
6819 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
6820 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
6821 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
6822 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
6823 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
6824 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
6825 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
6826 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
6827 &quot;sheetId&quot;: 42, # The sheet this span is on.
6828 },
6829 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
6830 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
6831 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
6832 },
6833 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
6834 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
6835 },
6836 ],
6837 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
6838 },
6839 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `properties` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
6840 },
6841 &quot;updateDataSource&quot;: { # Updates a data source. After the data source is updated successfully, an execution is triggered to refresh the associated DATA_SOURCE sheet to read data from the updated data source. The request requires an additional `bigquery.readonly` OAuth scope. # Updates a data source.
6842 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `dataSource` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
6843 &quot;dataSource&quot;: { # Information about an external data source in the spreadsheet. # The data source to update.
6844 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
6845 { # A column in a data source.
6846 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
6847 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6848 },
6849 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
6850 },
6851 ],
6852 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
6853 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
6854 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
6855 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
6856 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
6857 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
6858 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6859 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6860 &quot;sheetId&quot;: 42, # The sheet this range is on.
6861 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6862 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6863 },
6864 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
6865 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
6866 },
6867 ],
6868 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
6869 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
6870 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
6871 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
6872 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
6873 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
6874 },
6875 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
6876 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
6877 },
6878 },
6879 },
6880 },
6881 },
6882 &quot;trimWhitespace&quot;: { # Trims the whitespace (such as spaces, tabs, or new lines) in every cell in the specified range. This request removes all whitespace from the start and end of each cell&#x27;s text, and reduces any subsequence of remaining whitespace characters to a single space. If the resulting trimmed text starts with a &#x27;+&#x27; or &#x27;=&#x27; character, the text remains as a string value and isn&#x27;t interpreted as a formula. # Trims cells of whitespace (such as spaces, tabs, or new lines).
6883 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range whose cells to trim.
6884 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6885 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6886 &quot;sheetId&quot;: 42, # The sheet this range is on.
6887 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6888 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6889 },
6890 },
6891 &quot;updateFilterView&quot;: { # Updates properties of the filter view. # Updates the properties of a filter view.
6892 &quot;filter&quot;: { # A filter view. # The new properties of the filter view.
6893 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
6894 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
6895 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
6896 &quot;sheetId&quot;: 42, # The sheet this range is on.
6897 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
6898 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
6899 },
6900 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
6901 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
6902 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
6903 { # A sort order associated with a specific column or row.
6904 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
6905 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6906 },
6907 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
6908 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
6909 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6910 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6911 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6912 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6913 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6914 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6915 },
6916 },
6917 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
6918 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6919 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6920 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6921 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6922 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6923 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6924 },
6925 },
6926 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
6927 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6928 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6929 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6930 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6931 },
6932 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
6933 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
6934 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6935 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6936 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6937 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6938 },
6939 },
6940 ],
6941 &quot;filterViewId&quot;: 42, # The ID of the filter view.
6942 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
6943 { # The filter criteria associated with a specific column.
6944 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
6945 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
6946 },
6947 &quot;columnIndex&quot;: 42, # The column index.
6948 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
6949 &quot;hiddenValues&quot;: [ # Values that should be hidden.
6950 &quot;A String&quot;,
6951 ],
6952 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
6953 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6954 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6955 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6956 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6957 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6958 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6959 },
6960 },
6961 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
6962 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
6963 { # The value of the condition.
6964 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
6965 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
6966 },
6967 ],
6968 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
6969 },
6970 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
6971 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
6972 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
6973 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6974 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6975 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6976 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6977 },
6978 },
6979 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
6980 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6981 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6982 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6983 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6984 },
6985 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
6986 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
6987 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
6988 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
6989 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
6990 },
6991 },
6992 },
6993 ],
6994 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
6995 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
6996 &quot;hiddenValues&quot;: [ # Values that should be hidden.
6997 &quot;A String&quot;,
6998 ],
6999 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
7000 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7001 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7002 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7003 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7004 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7005 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7006 },
7007 },
7008 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
7009 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
7010 { # The value of the condition.
7011 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
7012 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
7013 },
7014 ],
7015 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
7016 },
7017 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
7018 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7019 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7020 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7021 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7022 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7023 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7024 },
7025 },
7026 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
7027 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7028 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7029 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7030 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7031 },
7032 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
7033 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7034 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7035 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7036 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7037 },
7038 },
7039 },
7040 },
7041 &quot;fields&quot;: &quot;A String&quot;, # The fields that should be updated. At least one field must be specified. The root `filter` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
7042 },
7043 &quot;deleteProtectedRange&quot;: { # Deletes the protected range with the given ID. # Deletes a protected range.
7044 &quot;protectedRangeId&quot;: 42, # The ID of the protected range to delete.
7045 },
7046 &quot;setBasicFilter&quot;: { # Sets the basic filter associated with a sheet. # Sets the basic filter on a sheet.
7047 &quot;filter&quot;: { # The default filter associated with a sheet. # The filter to set.
7048 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the filter covers.
7049 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
7050 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
7051 &quot;sheetId&quot;: 42, # The sheet this range is on.
7052 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
7053 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
7054 },
7055 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
7056 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
7057 &quot;hiddenValues&quot;: [ # Values that should be hidden.
7058 &quot;A String&quot;,
7059 ],
7060 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
7061 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7062 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7063 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7064 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7065 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7066 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7067 },
7068 },
7069 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
7070 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
7071 { # The value of the condition.
7072 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
7073 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
7074 },
7075 ],
7076 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
7077 },
7078 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
7079 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7080 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7081 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7082 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7083 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7084 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7085 },
7086 },
7087 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
7088 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7089 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7090 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7091 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7092 },
7093 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
7094 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7095 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7096 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7097 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7098 },
7099 },
7100 },
7101 &quot;filterSpecs&quot;: [ # The filter criteria per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
7102 { # The filter criteria associated with a specific column.
7103 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
7104 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
7105 },
7106 &quot;columnIndex&quot;: 42, # The column index.
7107 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
7108 &quot;hiddenValues&quot;: [ # Values that should be hidden.
7109 &quot;A String&quot;,
7110 ],
7111 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
7112 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7113 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7114 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7115 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7116 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7117 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7118 },
7119 },
7120 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
7121 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
7122 { # The value of the condition.
7123 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
7124 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
7125 },
7126 ],
7127 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
7128 },
7129 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
7130 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7131 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7132 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7133 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7134 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7135 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7136 },
7137 },
7138 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
7139 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7140 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7141 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7142 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7143 },
7144 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
7145 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7146 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7147 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7148 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7149 },
7150 },
7151 },
7152 ],
7153 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
7154 { # A sort order associated with a specific column or row.
7155 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
7156 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
7157 },
7158 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
7159 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
7160 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7161 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7162 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7163 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7164 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7165 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7166 },
7167 },
7168 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
7169 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7170 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7171 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7172 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7173 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7174 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7175 },
7176 },
7177 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
7178 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7179 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7180 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7181 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7182 },
7183 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
7184 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
7185 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7186 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7187 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7188 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7189 },
7190 },
7191 ],
7192 },
7193 },
7194 &quot;appendDimension&quot;: { # Appends rows or columns to the end of a sheet. # Appends dimensions to the end of a sheet.
7195 &quot;sheetId&quot;: 42, # The sheet to append rows or columns to.
7196 &quot;length&quot;: 42, # The number of rows or columns to append.
7197 &quot;dimension&quot;: &quot;A String&quot;, # Whether rows or columns should be appended.
7198 },
7199 &quot;addFilterView&quot;: { # Adds a filter view. # Adds a filter view.
7200 &quot;filter&quot;: { # A filter view. # The filter to add. The filterViewId field is optional; if one is not set, an id will be randomly generated. (It is an error to specify the ID of a filter that already exists.)
7201 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
7202 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
7203 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
7204 &quot;sheetId&quot;: 42, # The sheet this range is on.
7205 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
7206 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
7207 },
7208 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
7209 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
7210 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
7211 { # A sort order associated with a specific column or row.
7212 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
7213 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
7214 },
7215 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
7216 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
7217 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7218 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7219 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7220 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7221 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7222 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7223 },
7224 },
7225 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
7226 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7227 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7228 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7229 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7230 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7231 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7232 },
7233 },
7234 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
7235 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7236 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7237 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7238 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7239 },
7240 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
7241 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
7242 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7243 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7244 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7245 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7246 },
7247 },
7248 ],
7249 &quot;filterViewId&quot;: 42, # The ID of the filter view.
7250 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
7251 { # The filter criteria associated with a specific column.
7252 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
7253 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
7254 },
7255 &quot;columnIndex&quot;: 42, # The column index.
7256 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
7257 &quot;hiddenValues&quot;: [ # Values that should be hidden.
7258 &quot;A String&quot;,
7259 ],
7260 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
7261 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7262 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7263 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7264 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7265 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7266 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7267 },
7268 },
7269 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
7270 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
7271 { # The value of the condition.
7272 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
7273 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
7274 },
7275 ],
7276 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
7277 },
7278 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
7279 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7280 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7281 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7282 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7283 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7284 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7285 },
7286 },
7287 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
7288 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7289 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7290 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7291 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7292 },
7293 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
7294 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7295 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7296 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7297 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7298 },
7299 },
7300 },
7301 ],
7302 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
7303 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
7304 &quot;hiddenValues&quot;: [ # Values that should be hidden.
7305 &quot;A String&quot;,
7306 ],
7307 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
7308 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7309 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7310 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7311 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7312 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7313 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7314 },
7315 },
7316 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
7317 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
7318 { # The value of the condition.
7319 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
7320 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
7321 },
7322 ],
7323 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
7324 },
7325 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
7326 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7327 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7328 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7329 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7330 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7331 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7332 },
7333 },
7334 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
7335 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7336 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7337 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7338 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7339 },
7340 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
7341 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7342 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7343 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7344 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7345 },
7346 },
7347 },
7348 },
7349 },
7350 &quot;addSheet&quot;: { # Adds a new sheet. When a sheet is added at a given index, all subsequent sheets&#x27; indexes are incremented. To add an object sheet, use AddChartRequest instead and specify EmbeddedObjectPosition.sheetId or EmbeddedObjectPosition.newSheet. # Adds a sheet.
7351 &quot;properties&quot;: { # Properties of a sheet. # The properties the new sheet should have. All properties are optional. The sheetId field is optional; if one is not set, an id will be randomly generated. (It is an error to specify the ID of a sheet that already exists.)
7352 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
7353 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
7354 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
7355 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
7356 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
7357 &quot;rowCount&quot;: 42, # The number of rows in the grid.
7358 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
7359 &quot;columnCount&quot;: 42, # The number of columns in the grid.
7360 },
7361 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
7362 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7363 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7364 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7365 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7366 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7367 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7368 },
7369 },
7370 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
7371 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
7372 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
7373 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
7374 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7375 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7376 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7377 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7378 },
7379 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
7380 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
7381 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
7382 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
7383 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
7384 { # A column in a data source.
7385 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
7386 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
7387 },
7388 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
7389 },
7390 ],
7391 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
7392 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
7393 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
7394 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
7395 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
7396 },
7397 },
7398 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
7399 },
7400 },
7401 &quot;refreshDataSource&quot;: { # Refreshes one or multiple data source objects in the spreadsheet by the specified references. The request requires an additional `bigquery.readonly` OAuth scope. If there are multiple refresh requests referencing the same data source objects in one batch, only the last refresh request is processed, and all those requests will have the same response accordingly. # Refreshs one or multiple data sources and associated dbobjects.
7402 &quot;dataSourceId&quot;: &quot;A String&quot;, # Reference to a DataSource. If specified, refreshes all associated data source objects for the data source.
7403 &quot;references&quot;: { # A list of references to data source objects. # References to data source objects to refresh.
7404 &quot;references&quot;: [ # The references.
7405 { # Reference to a data source object.
7406 &quot;dataSourceTableAnchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # References to a DataSourceTable anchored at the cell.
7407 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
7408 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
7409 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
7410 },
7411 &quot;chartId&quot;: 42, # References to a data source chart.
7412 &quot;dataSourcePivotTableAnchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # References to a data source PivotTable anchored at the cell.
7413 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
7414 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
7415 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
7416 },
7417 &quot;sheetId&quot;: &quot;A String&quot;, # References to a DATA_SOURCE sheet.
7418 &quot;dataSourceFormulaCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # References to a cell containing DataSourceFormula.
7419 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
7420 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
7421 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
7422 },
7423 },
7424 ],
7425 },
7426 &quot;isAll&quot;: True or False, # Refreshes all existing data source objects in the spreadsheet.
7427 &quot;force&quot;: True or False, # Refreshes the data source objects regardless of the current state. If not set and a referenced data source object was in error state, the refresh will fail immediately.
7428 },
7429 &quot;deleteNamedRange&quot;: { # Removes the named range with the given ID from the spreadsheet. # Deletes a named range.
7430 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range to delete.
7431 },
7432 &quot;updateEmbeddedObjectPosition&quot;: { # Update an embedded object&#x27;s position (such as a moving or resizing a chart or image). # Updates an embedded object&#x27;s (e.g. chart, image) position.
7433 &quot;objectId&quot;: 42, # The ID of the object to moved.
7434 &quot;fields&quot;: &quot;A String&quot;, # The fields of OverlayPosition that should be updated when setting a new position. Used only if newPosition.overlayPosition is set, in which case at least one field must be specified. The root `newPosition.overlayPosition` is implied and should not be specified. A single `&quot;*&quot;` can be used as short-hand for listing every field.
7435 &quot;newPosition&quot;: { # The position of an embedded object such as a chart. # An explicit position to move the embedded object to. If newPosition.sheetId is set, a new sheet with that ID will be created. If newPosition.newSheet is set to true, a new sheet will be created with an ID that will be chosen for you.
7436 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
7437 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
7438 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
7439 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
7440 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
7441 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
7442 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
7443 },
7444 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
7445 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
7446 },
7447 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
7448 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
7449 },
7450 },
7451 &quot;duplicateFilterView&quot;: { # Duplicates a particular filter view. # Duplicates a filter view.
7452 &quot;filterId&quot;: 42, # The ID of the filter being duplicated.
7453 },
7454 &quot;deleteRange&quot;: { # Deletes a range of cells, shifting other cells into the deleted area. # Deletes a range of cells from a sheet, shifting the remaining cells.
7455 &quot;shiftDimension&quot;: &quot;A String&quot;, # The dimension from which deleted cells will be replaced with. If ROWS, existing cells will be shifted upward to replace the deleted cells. If COLUMNS, existing cells will be shifted left to replace the deleted cells.
7456 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range of cells to delete.
7457 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
7458 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
7459 &quot;sheetId&quot;: 42, # The sheet this range is on.
7460 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
7461 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
7462 },
7463 },
7464 &quot;findReplace&quot;: { # Finds and replaces data in cells over a range, sheet, or all sheets. # Finds and replaces occurrences of some text with other text.
7465 &quot;searchByRegex&quot;: True or False, # True if the find value is a regex. The regular expression and replacement should follow Java regex rules at https://docs.oracle.com/javase/8/docs/api/java/util/regex/Pattern.html. The replacement string is allowed to refer to capturing groups. For example, if one cell has the contents `&quot;Google Sheets&quot;` and another has `&quot;Google Docs&quot;`, then searching for `&quot;o.* (.*)&quot;` with a replacement of `&quot;$1 Rocks&quot;` would change the contents of the cells to `&quot;GSheets Rocks&quot;` and `&quot;GDocs Rocks&quot;` respectively.
7466 &quot;sheetId&quot;: 42, # The sheet to find/replace over.
7467 &quot;find&quot;: &quot;A String&quot;, # The value to search.
7468 &quot;includeFormulas&quot;: True or False, # True if the search should include cells with formulas. False to skip cells with formulas.
7469 &quot;replacement&quot;: &quot;A String&quot;, # The value to use as the replacement.
7470 &quot;matchCase&quot;: True or False, # True if the search is case sensitive.
7471 &quot;allSheets&quot;: True or False, # True to find/replace over all sheets.
7472 &quot;matchEntireCell&quot;: True or False, # True if the find value should match the entire cell.
7473 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range to find/replace over.
7474 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
7475 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
7476 &quot;sheetId&quot;: 42, # The sheet this range is on.
7477 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
7478 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -07007479 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -07007480 },
Bu Sun Kimd059ad82020-07-22 17:02:09 -07007481 },
7482 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08007483 &quot;responseRanges&quot;: [ # Limits the ranges included in the response spreadsheet. Meaningful only if include_spreadsheet_in_response is &#x27;true&#x27;.
7484 &quot;A String&quot;,
7485 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08007486 &quot;includeSpreadsheetInResponse&quot;: True or False, # Determines if the update response should include the spreadsheet resource.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -07007487 &quot;responseIncludeGridData&quot;: True or False, # True if grid data should be returned. Meaningful only if include_spreadsheet_in_response is &#x27;true&#x27;. This parameter is ignored if a field mask was set in the request.
Bu Sun Kimd059ad82020-07-22 17:02:09 -07007488 }
7489
7490 x__xgafv: string, V1 error format.
7491 Allowed values
7492 1 - v1 error format
7493 2 - v2 error format
7494
7495Returns:
7496 An object of the form:
7497
7498 { # The reply for batch updating a spreadsheet.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08007499 &quot;spreadsheetId&quot;: &quot;A String&quot;, # The spreadsheet the updates were applied to.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -08007500 &quot;updatedSpreadsheet&quot;: { # Resource that represents a spreadsheet. # The spreadsheet after updates were applied. This is only set if [BatchUpdateSpreadsheetRequest.include_spreadsheet_in_response] is `true`.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08007501 &quot;spreadsheetId&quot;: &quot;A String&quot;, # The ID of the spreadsheet. This field is read-only.
7502 &quot;dataSources&quot;: [ # A list of external data sources connected with the spreadsheet.
7503 { # Information about an external data source in the spreadsheet.
7504 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
7505 { # A column in a data source.
7506 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
7507 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
7508 },
7509 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
7510 },
7511 ],
7512 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
7513 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
7514 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
7515 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
7516 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
7517 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
7518 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
7519 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
7520 &quot;sheetId&quot;: 42, # The sheet this range is on.
7521 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
7522 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
7523 },
7524 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
7525 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
7526 },
7527 ],
7528 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
7529 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
7530 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
7531 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
7532 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
7533 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
7534 },
7535 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
7536 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
7537 },
7538 },
7539 },
7540 },
7541 ],
7542 &quot;developerMetadata&quot;: [ # The developer metadata associated with a spreadsheet.
7543 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
7544 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
7545 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
7546 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
7547 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
7548 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
7549 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
7550 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
7551 &quot;sheetId&quot;: 42, # The sheet this span is on.
7552 },
7553 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
7554 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
7555 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
7556 },
7557 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
7558 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
7559 },
7560 ],
7561 &quot;namedRanges&quot;: [ # The named ranges defined in a spreadsheet.
7562 { # A named range.
7563 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range.
7564 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this represents.
7565 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
7566 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
7567 &quot;sheetId&quot;: 42, # The sheet this range is on.
7568 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
7569 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
7570 },
7571 &quot;name&quot;: &quot;A String&quot;, # The name of the named range.
7572 },
7573 ],
7574 &quot;spreadsheetUrl&quot;: &quot;A String&quot;, # The url of the spreadsheet. This field is read-only.
7575 &quot;sheets&quot;: [ # The sheets that are part of a spreadsheet.
7576 { # A sheet in a spreadsheet.
7577 &quot;rowGroups&quot;: [ # All row groups on this sheet, ordered by increasing range start index, then by group depth.
7578 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
7579 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
7580 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
7581 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
7582 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
7583 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
7584 &quot;sheetId&quot;: 42, # The sheet this span is on.
7585 },
7586 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
7587 },
7588 ],
7589 &quot;bandedRanges&quot;: [ # The banded (alternating colors) ranges on this sheet.
7590 { # A banded (alternating colors) range in a sheet.
7591 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range over which these properties are applied.
7592 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
7593 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
7594 &quot;sheetId&quot;: 42, # The sheet this range is on.
7595 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
7596 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
7597 },
7598 &quot;columnProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for column bands. These properties are applied on a column- by-column basis throughout all the columns in the range. At least one of row_properties or column_properties must be specified.
7599 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -07007600 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7601 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08007602 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7603 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Dmitry Frenkel3e17f892020-10-06 16:46:05 -07007604 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08007605 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
7606 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7607 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7608 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7609 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7610 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7611 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7612 },
7613 },
7614 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
7615 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7616 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7617 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7618 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7619 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7620 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7621 },
7622 },
7623 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
7624 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7625 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7626 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7627 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7628 },
7629 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
7630 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7631 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7632 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7633 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7634 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7635 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7636 },
7637 },
7638 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
7639 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7640 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7641 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7642 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7643 },
7644 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
7645 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7646 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7647 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7648 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7649 },
7650 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
7651 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7652 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7653 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7654 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7655 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7656 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7657 },
7658 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -07007659 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -08007660 &quot;rowProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for row bands. These properties are applied on a row-by-row basis throughout all the rows in the range. At least one of row_properties or column_properties must be specified.
7661 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
7662 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7663 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7664 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7665 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7666 },
7667 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
7668 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7669 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7670 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7671 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7672 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7673 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7674 },
7675 },
7676 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
7677 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7678 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7679 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7680 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7681 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7682 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7683 },
7684 },
7685 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
7686 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7687 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7688 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7689 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7690 },
7691 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
7692 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7693 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7694 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7695 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7696 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7697 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7698 },
7699 },
7700 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
7701 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7702 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7703 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7704 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7705 },
7706 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
7707 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7708 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7709 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7710 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7711 },
7712 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
7713 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7714 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7715 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7716 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7717 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7718 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7719 },
7720 },
7721 },
7722 &quot;bandedRangeId&quot;: 42, # The id of the banded range.
7723 },
7724 ],
7725 &quot;conditionalFormats&quot;: [ # The conditional format rules in this sheet.
7726 { # A rule describing a conditional format.
7727 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
7728 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
7729 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
7730 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
7731 &quot;sheetId&quot;: 42, # The sheet this range is on.
7732 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
7733 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
7734 },
7735 ],
7736 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
7737 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
7738 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
7739 { # The value of the condition.
7740 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
7741 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
7742 },
7743 ],
7744 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
7745 },
7746 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
7747 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
7748 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
7749 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
7750 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
7751 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
7752 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7753 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7754 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7755 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7756 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7757 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7758 },
7759 },
7760 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
7761 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7762 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7763 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7764 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7765 },
7766 },
7767 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
7768 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
7769 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
7770 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
7771 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7772 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7773 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7774 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7775 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7776 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7777 },
7778 },
7779 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
7780 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7781 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7782 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7783 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7784 },
7785 },
7786 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
7787 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
7788 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
7789 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
7790 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7791 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7792 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7793 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7794 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7795 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7796 },
7797 },
7798 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
7799 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7800 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7801 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7802 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7803 },
7804 },
7805 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
7806 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
7807 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
7808 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
7809 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7810 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7811 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7812 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7813 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7814 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7815 },
7816 },
7817 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
7818 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7819 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7820 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7821 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7822 },
7823 },
7824 },
7825 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
7826 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7827 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7828 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7829 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7830 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7831 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7832 },
7833 },
7834 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
7835 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
7836 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
7837 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
7838 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
7839 },
7840 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
7841 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
7842 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
7843 &quot;bold&quot;: True or False, # True if the text is bold.
7844 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
7845 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
7846 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7847 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7848 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7849 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7850 },
7851 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
7852 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7853 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7854 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7855 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7856 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7857 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7858 },
7859 },
7860 &quot;italic&quot;: True or False, # True if the text is italicized.
7861 &quot;underline&quot;: True or False, # True if the text is underlined.
7862 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
7863 &quot;fontSize&quot;: 42, # The size of the font.
7864 },
7865 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
7866 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
7867 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
7868 },
7869 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
7870 &quot;bottom&quot;: 42, # The bottom padding of the cell.
7871 &quot;top&quot;: 42, # The top padding of the cell.
7872 &quot;right&quot;: 42, # The right padding of the cell.
7873 &quot;left&quot;: 42, # The left padding of the cell.
7874 },
7875 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
7876 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7877 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7878 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7879 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7880 },
7881 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
7882 },
7883 },
7884 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
7885 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
7886 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
7887 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7888 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7889 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7890 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7891 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7892 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7893 },
7894 },
7895 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
7896 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7897 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7898 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7899 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7900 },
7901 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
7902 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
7903 },
7904 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
7905 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
7906 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7907 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7908 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7909 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7910 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7911 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7912 },
7913 },
7914 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
7915 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7916 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7917 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7918 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7919 },
7920 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
7921 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
7922 },
7923 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
7924 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
7925 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7926 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
7927 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7928 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7929 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7930 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7931 },
7932 },
7933 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
7934 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
7935 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
7936 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
7937 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
7938 },
7939 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
7940 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
7941 },
7942 },
7943 },
7944 ],
7945 &quot;data&quot;: [ # Data in the grid, if this is a grid sheet. The number of GridData objects returned is dependent on the number of ranges requested on this sheet. For example, if this is representing `Sheet1`, and the spreadsheet was requested with ranges `Sheet1!A1:C10` and `Sheet1!D15:E20`, then the first GridData will have a startRow/startColumn of `0`, while the second one will have `startRow 14` (zero-based row 15), and `startColumn 3` (zero-based column D). For a DATA_SOURCE sheet, you can not request a specific range, the GridData contains all the values.
7946 { # Data in the grid, as well as metadata about the dimensions.
7947 &quot;columnMetadata&quot;: [ # Metadata about the requested columns in the grid, starting with the column in start_column.
7948 { # Properties about a dimension.
7949 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
7950 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
7951 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
7952 },
7953 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
7954 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
7955 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
7956 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
7957 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
7958 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
7959 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
7960 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
7961 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
7962 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
7963 &quot;sheetId&quot;: 42, # The sheet this span is on.
7964 },
7965 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
7966 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
7967 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
7968 },
7969 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
7970 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
7971 },
7972 ],
7973 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
7974 },
7975 ],
7976 &quot;startRow&quot;: 42, # The first row this GridData refers to, zero-based.
7977 &quot;rowData&quot;: [ # The data in the grid, one entry per row, starting with the row in startRow. The values in RowData will correspond to columns starting at start_column.
7978 { # Data about each cell in a row.
7979 &quot;values&quot;: [ # The values in the row, one per column.
7980 { # Data about a specific cell.
7981 &quot;effectiveValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The effective value of the cell. For cells with formulas, this is the calculated value. For cells with literals, this is the same as the user_entered_value. This field is read-only.
7982 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
7983 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
7984 &quot;type&quot;: &quot;A String&quot;, # The type of error.
7985 },
7986 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
7987 &quot;boolValue&quot;: True or False, # Represents a boolean value.
7988 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
7989 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
7990 },
7991 &quot;formattedValue&quot;: &quot;A String&quot;, # The formatted value of the cell. This is the value as it&#x27;s shown to the user. This field is read-only.
7992 &quot;userEnteredFormat&quot;: { # The format of a cell. # The format the user entered for the cell. When writing, the new format will be merged with the existing format.
7993 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
7994 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
7995 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
7996 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
7997 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
7998 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
7999 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8000 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8001 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8002 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8003 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8004 },
8005 },
8006 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
8007 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8008 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8009 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8010 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8011 },
8012 },
8013 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
8014 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
8015 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
8016 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
8017 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8018 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8019 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8020 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8021 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8022 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8023 },
8024 },
8025 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
8026 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8027 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8028 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8029 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8030 },
8031 },
8032 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
8033 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
8034 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
8035 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
8036 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8037 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8038 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8039 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8040 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8041 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8042 },
8043 },
8044 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
8045 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8046 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8047 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8048 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8049 },
8050 },
8051 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
8052 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
8053 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
8054 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
8055 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8056 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8057 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8058 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8059 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8060 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8061 },
8062 },
8063 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
8064 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8065 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8066 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8067 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8068 },
8069 },
8070 },
8071 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
8072 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8073 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8074 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8075 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8076 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8077 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8078 },
8079 },
8080 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
8081 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
8082 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
8083 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
8084 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
8085 },
8086 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
8087 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
8088 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
8089 &quot;bold&quot;: True or False, # True if the text is bold.
8090 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
8091 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
8092 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8093 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8094 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8095 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8096 },
8097 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
8098 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8099 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8100 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8101 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8102 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8103 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8104 },
8105 },
8106 &quot;italic&quot;: True or False, # True if the text is italicized.
8107 &quot;underline&quot;: True or False, # True if the text is underlined.
8108 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
8109 &quot;fontSize&quot;: 42, # The size of the font.
8110 },
8111 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
8112 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
8113 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
8114 },
8115 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
8116 &quot;bottom&quot;: 42, # The bottom padding of the cell.
8117 &quot;top&quot;: 42, # The top padding of the cell.
8118 &quot;right&quot;: 42, # The right padding of the cell.
8119 &quot;left&quot;: 42, # The left padding of the cell.
8120 },
8121 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
8122 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8123 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8124 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8125 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8126 },
8127 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
8128 },
8129 &quot;textFormatRuns&quot;: [ # Runs of rich text applied to subsections of the cell. Runs are only valid on user entered strings, not formulas, bools, or numbers. Properties of a run start at a specific index in the text and continue until the next run. Runs will inherit the properties of the cell unless explicitly changed. When writing, the new runs will overwrite any prior runs. When writing a new user_entered_value, previous runs are erased.
8130 { # A run of a text format. The format of this run continues until the start index of the next run. When updating, all fields must be set.
8131 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of this run. Absent values inherit the cell&#x27;s format.
8132 &quot;bold&quot;: True or False, # True if the text is bold.
8133 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
8134 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
8135 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8136 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8137 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8138 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8139 },
8140 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
8141 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8142 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8143 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8144 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8145 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8146 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8147 },
8148 },
8149 &quot;italic&quot;: True or False, # True if the text is italicized.
8150 &quot;underline&quot;: True or False, # True if the text is underlined.
8151 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
8152 &quot;fontSize&quot;: 42, # The size of the font.
8153 },
8154 &quot;startIndex&quot;: 42, # The character index where this run starts.
8155 },
8156 ],
8157 &quot;hyperlink&quot;: &quot;A String&quot;, # A hyperlink this cell points to, if any. If the cell contains multiple hyperlinks, this field will be empty. This field is read-only. To set it, use a `=HYPERLINK` formula in the userEnteredValue.formulaValue field.
8158 &quot;dataSourceTable&quot;: { # A data source table, which allows the user to import a static table of data from the DataSource into Sheets. This is also known as &quot;Extract&quot; in the Sheets editor. # A data source table anchored at this cell. The size of data source table itself is computed dynamically based on its configuration. Only the first cell of the data source table contains the data source table definition. The other cells will contain the display values of the data source table result in their effective_value fields.
8159 &quot;columns&quot;: [ # Columns selected for the data source table. The column_selection_type must be SELECTED.
8160 { # An unique identifier that references a data source column.
8161 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8162 },
8163 ],
8164 &quot;sortSpecs&quot;: [ # Sort specifications in the data source table. The result of the data source table is sorted based on the sort specifications in order.
8165 { # A sort order associated with a specific column or row.
8166 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
8167 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8168 },
8169 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
8170 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
8171 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8172 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8173 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8174 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8175 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8176 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8177 },
8178 },
8179 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
8180 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8181 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8182 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8183 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8184 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8185 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8186 },
8187 },
8188 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
8189 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8190 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8191 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8192 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8193 },
8194 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
8195 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
8196 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8197 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8198 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8199 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8200 },
8201 },
8202 ],
8203 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the data source table is associated with.
8204 &quot;columnSelectionType&quot;: &quot;A String&quot;, # The type to select columns for the data source table. Defaults to SELECTED.
8205 &quot;rowLimit&quot;: 42, # The limit of rows to return. If not set, a default limit is applied. Please refer to the Sheets editor for the default and max limit.
8206 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
8207 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
8208 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
8209 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
8210 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
8211 },
8212 &quot;filterSpecs&quot;: [ # Filter specifications in the data source table.
8213 { # The filter criteria associated with a specific column.
8214 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
8215 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8216 },
8217 &quot;columnIndex&quot;: 42, # The column index.
8218 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
8219 &quot;hiddenValues&quot;: [ # Values that should be hidden.
8220 &quot;A String&quot;,
8221 ],
8222 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
8223 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8224 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8225 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8226 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8227 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8228 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8229 },
8230 },
8231 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
8232 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
8233 { # The value of the condition.
8234 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
8235 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
8236 },
8237 ],
8238 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
8239 },
8240 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
8241 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8242 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8243 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8244 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8245 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8246 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8247 },
8248 },
8249 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
8250 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8251 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8252 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8253 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8254 },
8255 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
8256 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8257 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8258 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8259 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8260 },
8261 },
8262 },
8263 ],
8264 },
8265 &quot;dataSourceFormula&quot;: { # A data source formula. # Output only. Information about a data source formula on the cell. The field is set if user_entered_value is a formula referencing some DATA_SOURCE sheet, e.g `=SUM(DataSheet!Column)`.
8266 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
8267 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
8268 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
8269 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
8270 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
8271 },
8272 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the formula is associated with.
8273 },
8274 &quot;userEnteredValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The value the user entered in the cell. e.g, `1234`, `&#x27;Hello&#x27;`, or `=NOW()` Note: Dates, Times and DateTimes are represented as doubles in serial number format.
8275 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8276 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8277 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8278 },
8279 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8280 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8281 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8282 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8283 },
8284 &quot;note&quot;: &quot;A String&quot;, # Any note on the cell.
8285 &quot;dataValidation&quot;: { # A data validation rule. # A data validation rule on the cell, if any. When writing, the new data validation rule will overwrite any prior rule.
8286 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
8287 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
8288 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
8289 { # The value of the condition.
8290 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
8291 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
8292 },
8293 ],
8294 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
8295 },
8296 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
8297 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
8298 },
8299 &quot;effectiveFormat&quot;: { # The format of a cell. # The effective format being used by the cell. This includes the results of applying any conditional formatting and, if the cell contains a formula, the computed number format. If the effective format is the default format, effective format will not be written. This field is read-only.
8300 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
8301 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
8302 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
8303 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
8304 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
8305 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8306 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8307 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8308 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8309 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8310 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8311 },
8312 },
8313 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
8314 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8315 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8316 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8317 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8318 },
8319 },
8320 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
8321 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
8322 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
8323 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
8324 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8325 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8326 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8327 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8328 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8329 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8330 },
8331 },
8332 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
8333 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8334 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8335 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8336 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8337 },
8338 },
8339 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
8340 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
8341 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
8342 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
8343 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8344 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8345 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8346 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8347 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8348 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8349 },
8350 },
8351 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
8352 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8353 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8354 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8355 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8356 },
8357 },
8358 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
8359 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
8360 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
8361 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
8362 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8363 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8364 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8365 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8366 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8367 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8368 },
8369 },
8370 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
8371 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8372 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8373 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8374 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8375 },
8376 },
8377 },
8378 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
8379 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8380 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8381 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8382 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8383 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8384 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8385 },
8386 },
8387 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
8388 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
8389 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
8390 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
8391 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
8392 },
8393 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
8394 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
8395 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
8396 &quot;bold&quot;: True or False, # True if the text is bold.
8397 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
8398 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
8399 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8400 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8401 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8402 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8403 },
8404 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
8405 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8406 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8407 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8408 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8409 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8410 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8411 },
8412 },
8413 &quot;italic&quot;: True or False, # True if the text is italicized.
8414 &quot;underline&quot;: True or False, # True if the text is underlined.
8415 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
8416 &quot;fontSize&quot;: 42, # The size of the font.
8417 },
8418 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
8419 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
8420 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
8421 },
8422 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
8423 &quot;bottom&quot;: 42, # The bottom padding of the cell.
8424 &quot;top&quot;: 42, # The top padding of the cell.
8425 &quot;right&quot;: 42, # The right padding of the cell.
8426 &quot;left&quot;: 42, # The left padding of the cell.
8427 },
8428 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
8429 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8430 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8431 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8432 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8433 },
8434 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
8435 },
8436 &quot;pivotTable&quot;: { # A pivot table. # A pivot table anchored at this cell. The size of pivot table itself is computed dynamically based on its data, grouping, filters, values, etc. Only the top-left cell of the pivot table contains the pivot table definition. The other cells will contain the calculated values of the results of the pivot in their effective_value fields.
8437 &quot;criteria&quot;: { # An optional mapping of filters per source column offset. The filters are applied before aggregating data into the pivot table. The map&#x27;s key is the column offset of the source range that you want to filter, and the value is the criteria for that column. For example, if the source was `C10:E15`, a key of `0` will have the filter for column `C`, whereas the key `1` is for column `D`. This field is deprecated in favor of filter_specs.
8438 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a pivot table.
8439 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
8440 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
8441 { # The value of the condition.
8442 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
8443 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
8444 },
8445 ],
8446 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
8447 },
8448 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
8449 &quot;A String&quot;,
8450 ],
8451 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
8452 },
8453 },
8454 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the pivot table is reading data from.
8455 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
8456 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
8457 &quot;sheetId&quot;: 42, # The sheet this range is on.
8458 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
8459 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
8460 },
8461 &quot;columns&quot;: [ # Each column grouping in the pivot table.
8462 { # A single grouping (either row or column) in a pivot table.
8463 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
8464 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
8465 { # Metadata about a value in a pivot grouping.
8466 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
8467 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8468 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8469 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8470 },
8471 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8472 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8473 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8474 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8475 },
8476 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
8477 },
8478 ],
8479 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
8480 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
8481 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
8482 &quot;countLimit&quot;: 42, # The count limit.
8483 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
8484 },
8485 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
8486 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
8487 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
8488 { # The kinds of value that a cell in a spreadsheet can have.
8489 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8490 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8491 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8492 },
8493 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8494 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8495 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8496 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8497 },
8498 ],
8499 },
8500 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
8501 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8502 },
8503 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
8504 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
8505 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
8506 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
8507 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
8508 },
8509 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
8510 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
8511 { # A group name and a list of items from the source data that should be placed in the group with this name.
8512 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
8513 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8514 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8515 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8516 },
8517 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8518 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8519 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8520 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8521 },
8522 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
8523 { # The kinds of value that a cell in a spreadsheet can have.
8524 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8525 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8526 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8527 },
8528 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8529 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8530 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8531 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8532 },
8533 ],
8534 },
8535 ],
8536 },
8537 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
8538 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
8539 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
8540 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
8541 },
8542 },
8543 },
8544 ],
8545 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the pivot table is reading data from.
8546 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status for data source pivot tables.
8547 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
8548 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
8549 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
8550 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
8551 },
8552 &quot;values&quot;: [ # A list of values to include in the pivot table.
8553 { # The definition of how a value in a pivot table should be calculated.
8554 &quot;summarizeFunction&quot;: &quot;A String&quot;, # A function to summarize the value. If formula is set, the only supported values are SUM and CUSTOM. If sourceColumnOffset is set, then `CUSTOM` is not supported.
8555 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that this value reads from.
8556 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8557 },
8558 &quot;name&quot;: &quot;A String&quot;, # A name to use for the value.
8559 &quot;calculatedDisplayType&quot;: &quot;A String&quot;, # If specified, indicates that pivot values should be displayed as the result of a calculation with another pivot value. For example, if calculated_display_type is specified as PERCENT_OF_GRAND_TOTAL, all the pivot values are displayed as the percentage of the grand total. In the Sheets editor, this is referred to as &quot;Show As&quot; in the value section of a pivot table.
8560 &quot;formula&quot;: &quot;A String&quot;, # A custom formula to calculate the value. The formula must start with an `=` character.
8561 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this value reads from. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this value refers to column `C`, whereas the offset `1` would refer to column `D`.
8562 },
8563 ],
8564 &quot;filterSpecs&quot;: [ # The filters applied to the source columns before aggregating data for the pivot table. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
8565 { # The pivot table filter criteria associated with a specific source column offset.
8566 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a pivot table. # The criteria for the column.
8567 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
8568 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
8569 { # The value of the condition.
8570 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
8571 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
8572 },
8573 ],
8574 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
8575 },
8576 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
8577 &quot;A String&quot;,
8578 ],
8579 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
8580 },
8581 &quot;columnOffsetIndex&quot;: 42, # The column offset of the source range.
8582 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column.
8583 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8584 },
8585 },
8586 ],
8587 &quot;valueLayout&quot;: &quot;A String&quot;, # Whether values should be listed horizontally (as columns) or vertically (as rows).
8588 &quot;rows&quot;: [ # Each row grouping in the pivot table.
8589 { # A single grouping (either row or column) in a pivot table.
8590 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
8591 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
8592 { # Metadata about a value in a pivot grouping.
8593 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
8594 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8595 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8596 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8597 },
8598 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8599 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8600 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8601 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8602 },
8603 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
8604 },
8605 ],
8606 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
8607 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
8608 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
8609 &quot;countLimit&quot;: 42, # The count limit.
8610 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
8611 },
8612 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
8613 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
8614 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
8615 { # The kinds of value that a cell in a spreadsheet can have.
8616 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8617 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8618 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8619 },
8620 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8621 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8622 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8623 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8624 },
8625 ],
8626 },
8627 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
8628 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8629 },
8630 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
8631 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
8632 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
8633 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
8634 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
8635 },
8636 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
8637 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
8638 { # A group name and a list of items from the source data that should be placed in the group with this name.
8639 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
8640 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8641 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8642 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8643 },
8644 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8645 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8646 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8647 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8648 },
8649 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
8650 { # The kinds of value that a cell in a spreadsheet can have.
8651 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
8652 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
8653 &quot;type&quot;: &quot;A String&quot;, # The type of error.
8654 },
8655 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
8656 &quot;boolValue&quot;: True or False, # Represents a boolean value.
8657 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
8658 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
8659 },
8660 ],
8661 },
8662 ],
8663 },
8664 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
8665 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
8666 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
8667 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
8668 },
8669 },
8670 },
8671 ],
8672 },
8673 },
8674 ],
8675 },
8676 ],
8677 &quot;startColumn&quot;: 42, # The first column this GridData refers to, zero-based.
8678 &quot;rowMetadata&quot;: [ # Metadata about the requested rows in the grid, starting with the row in start_row.
8679 { # Properties about a dimension.
8680 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
8681 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
8682 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8683 },
8684 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
8685 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
8686 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
8687 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
8688 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
8689 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
8690 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
8691 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
8692 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
8693 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
8694 &quot;sheetId&quot;: 42, # The sheet this span is on.
8695 },
8696 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
8697 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
8698 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
8699 },
8700 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
8701 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
8702 },
8703 ],
8704 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
8705 },
8706 ],
8707 },
8708 ],
8709 &quot;filterViews&quot;: [ # The filter views in this sheet.
8710 { # A filter view.
8711 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
8712 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
8713 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
8714 &quot;sheetId&quot;: 42, # The sheet this range is on.
8715 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
8716 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
8717 },
8718 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
8719 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
8720 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
8721 { # A sort order associated with a specific column or row.
8722 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
8723 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8724 },
8725 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
8726 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
8727 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8728 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8729 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8730 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8731 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8732 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8733 },
8734 },
8735 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
8736 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8737 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8738 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8739 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8740 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8741 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8742 },
8743 },
8744 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
8745 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8746 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8747 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8748 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8749 },
8750 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
8751 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
8752 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8753 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8754 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8755 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8756 },
8757 },
8758 ],
8759 &quot;filterViewId&quot;: 42, # The ID of the filter view.
8760 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
8761 { # The filter criteria associated with a specific column.
8762 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
8763 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8764 },
8765 &quot;columnIndex&quot;: 42, # The column index.
8766 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
8767 &quot;hiddenValues&quot;: [ # Values that should be hidden.
8768 &quot;A String&quot;,
8769 ],
8770 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
8771 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8772 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8773 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8774 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8775 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8776 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8777 },
8778 },
8779 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
8780 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
8781 { # The value of the condition.
8782 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
8783 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
8784 },
8785 ],
8786 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
8787 },
8788 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
8789 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8790 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8791 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8792 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8793 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8794 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8795 },
8796 },
8797 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
8798 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8799 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8800 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8801 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8802 },
8803 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
8804 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8805 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8806 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8807 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8808 },
8809 },
8810 },
8811 ],
8812 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
8813 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
8814 &quot;hiddenValues&quot;: [ # Values that should be hidden.
8815 &quot;A String&quot;,
8816 ],
8817 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
8818 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8819 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8820 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8821 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8822 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8823 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8824 },
8825 },
8826 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
8827 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
8828 { # The value of the condition.
8829 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
8830 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
8831 },
8832 ],
8833 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
8834 },
8835 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
8836 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8837 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8838 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8839 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8840 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8841 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8842 },
8843 },
8844 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
8845 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8846 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8847 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8848 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8849 },
8850 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
8851 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8852 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8853 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8854 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8855 },
8856 },
8857 },
8858 },
8859 ],
8860 &quot;columnGroups&quot;: [ # All column groups on this sheet, ordered by increasing range start index, then by group depth.
8861 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
8862 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
8863 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
8864 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
8865 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
8866 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
8867 &quot;sheetId&quot;: 42, # The sheet this span is on.
8868 },
8869 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
8870 },
8871 ],
8872 &quot;developerMetadata&quot;: [ # The developer metadata associated with a sheet.
8873 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
8874 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
8875 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
8876 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
8877 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
8878 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
8879 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
8880 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
8881 &quot;sheetId&quot;: 42, # The sheet this span is on.
8882 },
8883 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
8884 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
8885 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
8886 },
8887 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
8888 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
8889 },
8890 ],
8891 &quot;charts&quot;: [ # The specifications of every chart on this sheet.
8892 { # A chart embedded in a sheet.
8893 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the chart.
8894 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
8895 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
8896 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
8897 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
8898 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
8899 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
8900 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
8901 },
8902 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
8903 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
8904 },
8905 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
8906 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
8907 },
8908 &quot;spec&quot;: { # The specifications of a chart. # The specification of the chart.
8909 &quot;subtitleTextPosition&quot;: { # Position settings for text. # The subtitle text position. This field is optional.
8910 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
8911 },
8912 &quot;orgChart&quot;: { # An org chart. Org charts require a unique set of labels in labels and may optionally include parent_labels and tooltips. parent_labels contain, for each node, the label identifying the parent node. tooltips contain, for each node, an optional tooltip. For example, to describe an OrgChart with Alice as the CEO, Bob as the President (reporting to Alice) and Cathy as VP of Sales (also reporting to Alice), have labels contain &quot;Alice&quot;, &quot;Bob&quot;, &quot;Cathy&quot;, parent_labels contain &quot;&quot;, &quot;Alice&quot;, &quot;Alice&quot; and tooltips contain &quot;CEO&quot;, &quot;President&quot;, &quot;VP Sales&quot;. # An org chart specification.
8913 &quot;nodeSize&quot;: &quot;A String&quot;, # The size of the org chart nodes.
8914 &quot;nodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the org chart nodes.
8915 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8916 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8917 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8918 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8919 },
8920 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data containing the label of the parent for the corresponding node. A blank value indicates that the node has no parent and is a top-level node. This field is optional.
8921 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
8922 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
8923 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
8924 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
8925 },
8926 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
8927 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
8928 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
8929 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
8930 },
8931 },
8932 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
8933 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8934 },
8935 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
8936 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
8937 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
8938 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
8939 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
8940 &quot;sheetId&quot;: 42, # The sheet this range is on.
8941 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
8942 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
8943 },
8944 ],
8945 },
8946 },
8947 &quot;selectedNodeColorStyle&quot;: { # A color value. # The color of the selected org chart nodes. If selected_node_color is also set, this field takes precedence.
8948 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
8949 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
8950 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8951 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8952 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8953 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8954 },
8955 },
8956 &quot;selectedNodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the selected org chart nodes.
8957 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
8958 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
8959 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
8960 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
8961 },
8962 &quot;labels&quot;: { # The data included in a domain or series. # The data containing the labels for all the nodes in the chart. Labels must be unique.
8963 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
8964 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
8965 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
8966 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
8967 },
8968 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
8969 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
8970 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
8971 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
8972 },
8973 },
8974 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
8975 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
8976 },
8977 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
8978 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
8979 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
8980 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
8981 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
8982 &quot;sheetId&quot;: 42, # The sheet this range is on.
8983 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
8984 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
8985 },
8986 ],
8987 },
8988 },
8989 &quot;tooltips&quot;: { # The data included in a domain or series. # The data containing the tooltip for the corresponding node. A blank value results in no tooltip being displayed for the node. This field is optional.
8990 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
8991 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
8992 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
8993 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
8994 },
8995 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
8996 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
8997 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
8998 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
8999 },
9000 },
9001 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9002 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9003 },
9004 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9005 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9006 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9007 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9008 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9009 &quot;sheetId&quot;: 42, # The sheet this range is on.
9010 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9011 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9012 },
9013 ],
9014 },
9015 },
9016 &quot;nodeColorStyle&quot;: { # A color value. # The color of the org chart nodes. If node_color is also set, this field takes precedence.
9017 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9018 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9019 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9020 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9021 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9022 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9023 },
9024 },
9025 },
9026 &quot;fontName&quot;: &quot;A String&quot;, # The name of the font to use by default for all chart text (e.g. title, axis labels, legend). If a font is specified for a specific part of the chart it will override this font name.
9027 &quot;scorecardChart&quot;: { # A scorecard chart. Scorecard charts are used to highlight key performance indicators, known as KPIs, on the spreadsheet. A scorecard chart can represent things like total sales, average cost, or a top selling item. You can specify a single data value, or aggregate over a range of data. Percentage or absolute difference from a baseline value can be highlighted, like changes over time. # A scorecard chart specification.
9028 &quot;customFormatOptions&quot;: { # Custom number formatting options for chart attributes. # Custom formatting options for numeric key/baseline values in scorecard chart. This field is used only when number_format_source is set to CUSTOM. This field is optional.
9029 &quot;prefix&quot;: &quot;A String&quot;, # Custom prefix to be prepended to the chart attribute. This field is optional.
9030 &quot;suffix&quot;: &quot;A String&quot;, # Custom suffix to be appended to the chart attribute. This field is optional.
9031 },
9032 &quot;baselineValueData&quot;: { # The data included in a domain or series. # The data for scorecard baseline value. This field is optional.
9033 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9034 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9035 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9036 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9037 },
9038 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9039 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9040 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9041 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9042 },
9043 },
9044 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9045 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9046 },
9047 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9048 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9049 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9050 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9051 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9052 &quot;sheetId&quot;: 42, # The sheet this range is on.
9053 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9054 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9055 },
9056 ],
9057 },
9058 },
9059 &quot;scaleFactor&quot;: 3.14, # Value to scale scorecard key and baseline value. For example, a factor of 10 can be used to divide all values in the chart by 10. This field is optional.
9060 &quot;baselineValueFormat&quot;: { # Formatting options for baseline value. # Formatting options for baseline value. This field is needed only if baseline_value_data is specified.
9061 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for baseline value.
9062 &quot;bold&quot;: True or False, # True if the text is bold.
9063 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
9064 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
9065 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9066 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9067 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9068 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9069 },
9070 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
9071 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9072 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9073 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9074 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9075 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9076 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9077 },
9078 },
9079 &quot;italic&quot;: True or False, # True if the text is italicized.
9080 &quot;underline&quot;: True or False, # True if the text is underlined.
9081 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
9082 &quot;fontSize&quot;: 42, # The size of the font.
9083 },
9084 &quot;comparisonType&quot;: &quot;A String&quot;, # The comparison type of key value with baseline value.
9085 &quot;negativeColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a negative change for key value. This field is optional. If negative_color is also set, this field takes precedence.
9086 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9087 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9088 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9089 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9090 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9091 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9092 },
9093 },
9094 &quot;positiveColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a positive change for key value. This field is optional. If positive_color is also set, this field takes precedence.
9095 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9096 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9097 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9098 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9099 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9100 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9101 },
9102 },
9103 &quot;description&quot;: &quot;A String&quot;, # Description which is appended after the baseline value. This field is optional.
9104 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of baseline value. This field is optional. If not specified, default positioning is used.
9105 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
9106 },
9107 &quot;negativeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a negative change for key value. This field is optional.
9108 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9109 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9110 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9111 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9112 },
9113 &quot;positiveColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a positive change for key value. This field is optional.
9114 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9115 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9116 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9117 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9118 },
9119 },
9120 &quot;keyValueData&quot;: { # The data included in a domain or series. # The data for scorecard key value.
9121 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9122 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9123 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9124 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9125 },
9126 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9127 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9128 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9129 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9130 },
9131 },
9132 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9133 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9134 },
9135 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9136 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9137 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9138 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9139 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9140 &quot;sheetId&quot;: 42, # The sheet this range is on.
9141 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9142 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9143 },
9144 ],
9145 },
9146 },
9147 &quot;numberFormatSource&quot;: &quot;A String&quot;, # The number format source used in the scorecard chart. This field is optional.
9148 &quot;keyValueFormat&quot;: { # Formatting options for key value. # Formatting options for key value.
9149 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for key value.
9150 &quot;bold&quot;: True or False, # True if the text is bold.
9151 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
9152 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
9153 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9154 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9155 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9156 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9157 },
9158 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
9159 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9160 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9161 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9162 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9163 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9164 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9165 },
9166 },
9167 &quot;italic&quot;: True or False, # True if the text is italicized.
9168 &quot;underline&quot;: True or False, # True if the text is underlined.
9169 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
9170 &quot;fontSize&quot;: 42, # The size of the font.
9171 },
9172 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of key value. This field is optional. If not specified, default positioning is used.
9173 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
9174 },
9175 },
9176 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for key and baseline chart data in scorecard chart. This field is not supported for data source charts. Use the ChartData.aggregateType field of the key_value_data or baseline_value_data instead for data source charts. This field is optional.
9177 },
9178 &quot;sortSpecs&quot;: [ # The order to sort the chart data by. Only a single sort spec is supported. Only supported for data source charts.
9179 { # A sort order associated with a specific column or row.
9180 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
9181 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9182 },
9183 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
9184 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
9185 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9186 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9187 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9188 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9189 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9190 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9191 },
9192 },
9193 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
9194 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9195 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9196 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9197 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9198 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9199 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9200 },
9201 },
9202 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
9203 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9204 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9205 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9206 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9207 },
9208 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
9209 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
9210 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9211 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9212 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9213 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9214 },
9215 },
9216 ],
9217 &quot;title&quot;: &quot;A String&quot;, # The title of the chart.
9218 &quot;titleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The title text format. Strikethrough and underline are not supported.
9219 &quot;bold&quot;: True or False, # True if the text is bold.
9220 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
9221 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
9222 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9223 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9224 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9225 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9226 },
9227 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
9228 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9229 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9230 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9231 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9232 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9233 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9234 },
9235 },
9236 &quot;italic&quot;: True or False, # True if the text is italicized.
9237 &quot;underline&quot;: True or False, # True if the text is underlined.
9238 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
9239 &quot;fontSize&quot;: 42, # The size of the font.
9240 },
9241 &quot;maximized&quot;: True or False, # True to make a chart fill the entire space in which it&#x27;s rendered with minimum padding. False to use the default padding. (Not applicable to Geo and Org charts.)
9242 &quot;dataSourceChartProperties&quot;: { # Properties of a data source chart. # If present, the field contains data source chart specific properties.
9243 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the data source that the chart is associated with.
9244 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
9245 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
9246 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
9247 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
9248 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
9249 },
9250 },
9251 &quot;waterfallChart&quot;: { # A waterfall chart. # A waterfall chart specification.
9252 &quot;hideConnectorLines&quot;: True or False, # True to hide connector lines between columns.
9253 &quot;connectorLineStyle&quot;: { # Properties that describe the style of a line. # The line style for the connector lines.
9254 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
9255 &quot;width&quot;: 42, # The thickness of the line, in px.
9256 },
9257 &quot;series&quot;: [ # The data this waterfall chart is visualizing.
9258 { # A single series of data for a waterfall chart.
9259 &quot;data&quot;: { # The data included in a domain or series. # The data being visualized in this series.
9260 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9261 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9262 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9263 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9264 },
9265 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9266 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9267 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9268 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9269 },
9270 },
9271 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9272 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9273 },
9274 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9275 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9276 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9277 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9278 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9279 &quot;sheetId&quot;: 42, # The sheet this range is on.
9280 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9281 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9282 },
9283 ],
9284 },
9285 },
9286 &quot;subtotalColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all subtotal columns in this series.
9287 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
9288 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
9289 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9290 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9291 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9292 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9293 },
9294 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
9295 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9296 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9297 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9298 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9299 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9300 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9301 },
9302 },
9303 },
9304 &quot;negativeColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with negative values.
9305 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
9306 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
9307 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9308 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9309 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9310 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9311 },
9312 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
9313 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9314 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9315 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9316 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9317 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9318 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9319 },
9320 },
9321 },
9322 &quot;hideTrailingSubtotal&quot;: True or False, # True to hide the subtotal column from the end of the series. By default, a subtotal column will appear at the end of each series. Setting this field to true will hide that subtotal column for this series.
9323 &quot;customSubtotals&quot;: [ # Custom subtotal columns appearing in this series. The order in which subtotals are defined is not significant. Only one subtotal may be defined for each data point.
9324 { # A custom subtotal column for a waterfall chart series.
9325 &quot;subtotalIndex&quot;: 42, # The 0-based index of a data point within the series. If data_is_subtotal is true, the data point at this index is the subtotal. Otherwise, the subtotal appears after the data point with this index. A series can have multiple subtotals at arbitrary indices, but subtotals do not affect the indices of the data points. For example, if a series has three data points, their indices will always be 0, 1, and 2, regardless of how many subtotals exist on the series or what data points they are associated with.
9326 &quot;label&quot;: &quot;A String&quot;, # A label for the subtotal column.
9327 &quot;dataIsSubtotal&quot;: True or False, # True if the data point at subtotal_index is the subtotal. If false, the subtotal will be computed and appear after the data point.
9328 },
9329 ],
9330 &quot;positiveColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with positive values.
9331 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
9332 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
9333 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9334 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9335 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9336 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9337 },
9338 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
9339 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9340 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9341 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9342 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9343 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9344 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9345 },
9346 },
9347 },
9348 },
9349 ],
9350 &quot;domain&quot;: { # The domain of a waterfall chart. # The domain data (horizontal axis) for the waterfall chart.
9351 &quot;data&quot;: { # The data included in a domain or series. # The data of the WaterfallChartDomain.
9352 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9353 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9354 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9355 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9356 },
9357 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9358 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9359 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9360 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9361 },
9362 },
9363 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9364 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9365 },
9366 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9367 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9368 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9369 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9370 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9371 &quot;sheetId&quot;: 42, # The sheet this range is on.
9372 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9373 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9374 },
9375 ],
9376 },
9377 },
9378 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
9379 },
9380 &quot;firstValueIsTotal&quot;: True or False, # True to interpret the first value as a total.
9381 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type.
9382 },
9383 &quot;histogramChart&quot;: { # A histogram chart. A histogram chart groups data items into bins, displaying each bin as a column of stacked items. Histograms are used to display the distribution of a dataset. Each column of items represents a range into which those items fall. The number of bins can be chosen automatically or specified explicitly. # A histogram chart specification.
9384 &quot;series&quot;: [ # The series for a histogram may be either a single series of values to be bucketed or multiple series, each of the same length, containing the name of the series followed by the values to be bucketed for that series.
9385 { # A histogram series containing the series color and data.
9386 &quot;data&quot;: { # The data included in a domain or series. # The data for this histogram series.
9387 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9388 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9389 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9390 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9391 },
9392 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9393 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9394 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9395 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9396 },
9397 },
9398 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9399 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9400 },
9401 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9402 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9403 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9404 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9405 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9406 &quot;sheetId&quot;: 42, # The sheet this range is on.
9407 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9408 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9409 },
9410 ],
9411 },
9412 },
9413 &quot;barColorStyle&quot;: { # A color value. # The color of the column representing this series in each bucket. This field is optional. If bar_color is also set, this field takes precedence.
9414 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9415 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9416 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9417 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9418 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9419 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9420 },
9421 },
9422 &quot;barColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column representing this series in each bucket. This field is optional.
9423 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9424 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9425 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9426 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9427 },
9428 },
9429 ],
9430 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
9431 &quot;showItemDividers&quot;: True or False, # Whether horizontal divider lines should be displayed between items in each column.
9432 &quot;outlierPercentile&quot;: 3.14, # The outlier percentile is used to ensure that outliers do not adversely affect the calculation of bucket sizes. For example, setting an outlier percentile of 0.05 indicates that the top and bottom 5% of values when calculating buckets. The values are still included in the chart, they will be added to the first or last buckets instead of their own buckets. Must be between 0.0 and 0.5.
9433 &quot;bucketSize&quot;: 3.14, # By default the bucket size (the range of values stacked in a single column) is chosen automatically, but it may be overridden here. E.g., A bucket size of 1.5 results in buckets from 0 - 1.5, 1.5 - 3.0, etc. Cannot be negative. This field is optional.
9434 },
9435 &quot;hiddenDimensionStrategy&quot;: &quot;A String&quot;, # Determines how the charts will use hidden rows or columns.
9436 &quot;bubbleChart&quot;: { # A bubble chart. # A bubble chart specification.
9437 &quot;bubbleMaxRadiusSize&quot;: 42, # The max radius size of the bubbles, in pixels. If specified, the field must be a positive value.
9438 &quot;bubbleSizes&quot;: { # The data included in a domain or series. # The data contianing the bubble sizes. Bubble sizes are used to draw the bubbles at different sizes relative to each other. If specified, group_ids must also be specified. This field is optional.
9439 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9440 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9441 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9442 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9443 },
9444 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9445 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9446 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9447 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9448 },
9449 },
9450 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9451 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9452 },
9453 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9454 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9455 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9456 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9457 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9458 &quot;sheetId&quot;: 42, # The sheet this range is on.
9459 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9460 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9461 },
9462 ],
9463 },
9464 },
9465 &quot;groupIds&quot;: { # The data included in a domain or series. # The data containing the bubble group IDs. All bubbles with the same group ID are drawn in the same color. If bubble_sizes is specified then this field must also be specified but may contain blank values. This field is optional.
9466 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9467 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9468 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9469 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9470 },
9471 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9472 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9473 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9474 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9475 },
9476 },
9477 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9478 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9479 },
9480 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9481 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9482 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9483 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9484 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9485 &quot;sheetId&quot;: 42, # The sheet this range is on.
9486 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9487 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9488 },
9489 ],
9490 },
9491 },
9492 &quot;bubbleOpacity&quot;: 3.14, # The opacity of the bubbles between 0 and 1.0. 0 is fully transparent and 1 is fully opaque.
9493 &quot;bubbleLabels&quot;: { # The data included in a domain or series. # The data containing the bubble labels. These do not need to be unique.
9494 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9495 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9496 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9497 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9498 },
9499 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9500 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9501 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9502 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9503 },
9504 },
9505 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9506 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9507 },
9508 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9509 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9510 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9511 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9512 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9513 &quot;sheetId&quot;: 42, # The sheet this range is on.
9514 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9515 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9516 },
9517 ],
9518 },
9519 },
9520 &quot;bubbleBorderColorStyle&quot;: { # A color value. # The bubble border color. If bubble_border_color is also set, this field takes precedence.
9521 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9522 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9523 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9524 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9525 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9526 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9527 },
9528 },
9529 &quot;domain&quot;: { # The data included in a domain or series. # The data containing the bubble x-values. These values locate the bubbles in the chart horizontally.
9530 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9531 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9532 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9533 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9534 },
9535 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9536 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9537 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9538 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9539 },
9540 },
9541 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9542 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9543 },
9544 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9545 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9546 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9547 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9548 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9549 &quot;sheetId&quot;: 42, # The sheet this range is on.
9550 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9551 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9552 },
9553 ],
9554 },
9555 },
9556 &quot;bubbleTextStyle&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text inside the bubbles. Strikethrough and underline are not supported.
9557 &quot;bold&quot;: True or False, # True if the text is bold.
9558 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
9559 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
9560 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9561 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9562 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9563 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9564 },
9565 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
9566 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9567 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9568 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9569 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9570 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9571 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9572 },
9573 },
9574 &quot;italic&quot;: True or False, # True if the text is italicized.
9575 &quot;underline&quot;: True or False, # True if the text is underlined.
9576 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
9577 &quot;fontSize&quot;: 42, # The size of the font.
9578 },
9579 &quot;bubbleMinRadiusSize&quot;: 42, # The minimum radius size of the bubbles, in pixels. If specific, the field must be a positive value.
9580 &quot;bubbleBorderColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The bubble border color.
9581 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9582 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9583 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9584 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9585 },
9586 &quot;series&quot;: { # The data included in a domain or series. # The data contianing the bubble y-values. These values locate the bubbles in the chart vertically.
9587 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9588 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9589 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9590 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9591 },
9592 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9593 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9594 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9595 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9596 },
9597 },
9598 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9599 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9600 },
9601 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9602 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9603 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9604 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9605 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9606 &quot;sheetId&quot;: 42, # The sheet this range is on.
9607 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9608 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9609 },
9610 ],
9611 },
9612 },
9613 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the chart should be drawn.
9614 },
9615 &quot;subtitle&quot;: &quot;A String&quot;, # The subtitle of the chart.
9616 &quot;pieChart&quot;: { # A pie chart. # A pie chart specification.
9617 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the pie chart should be drawn.
9618 &quot;threeDimensional&quot;: True or False, # True if the pie is three dimensional.
9619 &quot;domain&quot;: { # The data included in a domain or series. # The data that covers the domain of the pie chart.
9620 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9621 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9622 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9623 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9624 },
9625 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9626 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9627 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9628 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9629 },
9630 },
9631 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9632 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9633 },
9634 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9635 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9636 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9637 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9638 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9639 &quot;sheetId&quot;: 42, # The sheet this range is on.
9640 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9641 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9642 },
9643 ],
9644 },
9645 },
9646 &quot;pieHole&quot;: 3.14, # The size of the hole in the pie chart.
9647 &quot;series&quot;: { # The data included in a domain or series. # The data that covers the one and only series of the pie chart.
9648 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9649 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9650 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9651 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9652 },
9653 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9654 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9655 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9656 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9657 },
9658 },
9659 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9660 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9661 },
9662 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9663 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9664 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9665 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9666 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9667 &quot;sheetId&quot;: 42, # The sheet this range is on.
9668 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9669 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9670 },
9671 ],
9672 },
9673 },
9674 },
9675 &quot;treemapChart&quot;: { # A Treemap chart. # A treemap chart specification.
9676 &quot;headerColorStyle&quot;: { # A color value. # The background color for header cells. If header_color is also set, this field takes precedence.
9677 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9678 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9679 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9680 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9681 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9682 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9683 },
9684 },
9685 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data the contains the treemap cells&#x27; parent labels.
9686 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9687 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9688 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9689 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9690 },
9691 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9692 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9693 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9694 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9695 },
9696 },
9697 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9698 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9699 },
9700 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9701 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9702 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9703 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9704 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9705 &quot;sheetId&quot;: 42, # The sheet this range is on.
9706 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9707 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9708 },
9709 ],
9710 },
9711 },
9712 &quot;minValue&quot;: 3.14, # The minimum possible data value. Cells with values less than this will have the same color as cells with this value. If not specified, defaults to the actual minimum value from color_data, or the minimum value from size_data if color_data is not specified.
9713 &quot;hintedLevels&quot;: 42, # The number of additional data levels beyond the labeled levels to be shown on the treemap chart. These levels are not interactive and are shown without their labels. Defaults to 0 if not specified.
9714 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for header cells.
9715 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9716 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9717 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9718 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9719 },
9720 &quot;maxValue&quot;: 3.14, # The maximum possible data value. Cells with values greater than this will have the same color as cells with this value. If not specified, defaults to the actual maximum value from color_data, or the maximum value from size_data if color_data is not specified.
9721 &quot;sizeData&quot;: { # The data included in a domain or series. # The data that determines the size of each treemap data cell. This data is expected to be numeric. The cells corresponding to non-numeric or missing data will not be rendered. If color_data is not specified, this data is used to determine data cell background colors as well.
9722 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9723 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9724 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9725 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9726 },
9727 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9728 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9729 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9730 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9731 },
9732 },
9733 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9734 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9735 },
9736 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9737 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9738 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9739 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9740 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9741 &quot;sheetId&quot;: 42, # The sheet this range is on.
9742 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9743 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9744 },
9745 ],
9746 },
9747 },
9748 &quot;labels&quot;: { # The data included in a domain or series. # The data that contains the treemap cell labels.
9749 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9750 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9751 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9752 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9753 },
9754 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9755 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9756 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9757 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9758 },
9759 },
9760 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9761 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9762 },
9763 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9764 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9765 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9766 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9767 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9768 &quot;sheetId&quot;: 42, # The sheet this range is on.
9769 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9770 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9771 },
9772 ],
9773 },
9774 },
9775 &quot;colorData&quot;: { # The data included in a domain or series. # The data that determines the background color of each treemap data cell. This field is optional. If not specified, size_data is used to determine background colors. If specified, the data is expected to be numeric. color_scale will determine how the values in this data map to data cell background colors.
9776 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9777 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9778 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9779 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9780 },
9781 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9782 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9783 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9784 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9785 },
9786 },
9787 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9788 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9789 },
9790 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9791 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9792 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9793 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9794 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9795 &quot;sheetId&quot;: 42, # The sheet this range is on.
9796 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9797 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9798 },
9799 ],
9800 },
9801 },
9802 &quot;colorScale&quot;: { # A color scale for a treemap chart. # The color scale for data cells in the treemap chart. Data cells are assigned colors based on their color values. These color values come from color_data, or from size_data if color_data is not specified. Cells with color values less than or equal to min_value will have minValueColor as their background color. Cells with color values greater than or equal to max_value will have maxValueColor as their background color. Cells with color values between min_value and max_value will have background colors on a gradient between minValueColor and maxValueColor, the midpoint of the gradient being midValueColor. Cells with missing or non-numeric color values will have noDataColor as their background color.
9803 &quot;midValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified.
9804 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9805 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9806 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9807 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9808 },
9809 &quot;maxValueColorStyle&quot;: { # A color value. # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified. If max_value_color is also set, this field takes precedence.
9810 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9811 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9812 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9813 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9814 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9815 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9816 },
9817 },
9818 &quot;minValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified.
9819 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9820 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9821 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9822 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9823 },
9824 &quot;noDataColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified.
9825 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9826 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9827 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9828 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9829 },
9830 &quot;noDataColorStyle&quot;: { # A color value. # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified. If no_data_color is also set, this field takes precedence.
9831 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9832 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9833 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9834 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9835 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9836 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9837 },
9838 },
9839 &quot;midValueColorStyle&quot;: { # A color value. # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified. If mid_value_color is also set, this field takes precedence.
9840 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9841 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9842 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9843 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9844 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9845 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9846 },
9847 },
9848 &quot;maxValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified.
9849 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9850 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9851 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9852 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9853 },
9854 &quot;minValueColorStyle&quot;: { # A color value. # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified. If min_value_color is also set, this field takes precedence.
9855 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9856 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9857 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9858 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9859 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9860 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9861 },
9862 },
9863 },
9864 &quot;hideTooltips&quot;: True or False, # True to hide tooltips.
9865 &quot;levels&quot;: 42, # The number of data levels to show on the treemap chart. These levels are interactive and are shown with their labels. Defaults to 2 if not specified.
9866 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format for all labels on the chart.
9867 &quot;bold&quot;: True or False, # True if the text is bold.
9868 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
9869 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
9870 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9871 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9872 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9873 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9874 },
9875 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
9876 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9877 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9878 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9879 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9880 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9881 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9882 },
9883 },
9884 &quot;italic&quot;: True or False, # True if the text is italicized.
9885 &quot;underline&quot;: True or False, # True if the text is underlined.
9886 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
9887 &quot;fontSize&quot;: 42, # The size of the font.
9888 },
9889 },
9890 &quot;titleTextPosition&quot;: { # Position settings for text. # The title text position. This field is optional.
9891 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
9892 },
9893 &quot;altText&quot;: &quot;A String&quot;, # The alternative text that describes the chart. This is often used for accessibility.
9894 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the entire chart. Not applicable to Org charts. If background_color is also set, this field takes precedence.
9895 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9896 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9897 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9898 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9899 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9900 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9901 },
9902 },
9903 &quot;filterSpecs&quot;: [ # The filters applied to the source data of the chart. Only supported for data source charts.
9904 { # The filter criteria associated with a specific column.
9905 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
9906 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9907 },
9908 &quot;columnIndex&quot;: 42, # The column index.
9909 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
9910 &quot;hiddenValues&quot;: [ # Values that should be hidden.
9911 &quot;A String&quot;,
9912 ],
9913 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
9914 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9915 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9916 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9917 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9918 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9919 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9920 },
9921 },
9922 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
9923 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
9924 { # The value of the condition.
9925 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
9926 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
9927 },
9928 ],
9929 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
9930 },
9931 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
9932 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
9933 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
9934 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9935 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9936 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9937 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9938 },
9939 },
9940 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
9941 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9942 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9943 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9944 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9945 },
9946 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
9947 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
9948 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
9949 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
9950 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
9951 },
9952 },
9953 },
9954 ],
9955 &quot;candlestickChart&quot;: { # A candlestick chart. # A candlestick chart specification.
9956 &quot;domain&quot;: { # The domain of a CandlestickChart. # The domain data (horizontal axis) for the candlestick chart. String data will be treated as discrete labels, other data will be treated as continuous values.
9957 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
9958 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickDomain.
9959 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9960 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9961 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9962 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9963 },
9964 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9965 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9966 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9967 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9968 },
9969 },
9970 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
9971 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
9972 },
9973 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
9974 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
9975 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
9976 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
9977 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
9978 &quot;sheetId&quot;: 42, # The sheet this range is on.
9979 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
9980 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
9981 },
9982 ],
9983 },
9984 },
9985 },
9986 &quot;data&quot;: [ # The Candlestick chart data. Only one CandlestickData is supported.
9987 { # The Candlestick chart data, each containing the low, open, close, and high values for a series.
9988 &quot;openSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the open/initial value for each candle. This is the bottom of the candle body. If less than the close value the candle will be filled. Otherwise the candle will be hollow.
9989 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
9990 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
9991 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
9992 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
9993 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
9994 },
9995 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
9996 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
9997 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
9998 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
9999 },
10000 },
10001 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
10002 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10003 },
10004 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
10005 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
10006 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10007 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10008 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10009 &quot;sheetId&quot;: 42, # The sheet this range is on.
10010 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10011 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10012 },
10013 ],
10014 },
10015 },
10016 },
10017 &quot;highSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the high/maximum value for each candle. This is the top of the candle&#x27;s center line.
10018 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
10019 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
10020 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
10021 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
10022 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
10023 },
10024 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
10025 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
10026 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
10027 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
10028 },
10029 },
10030 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
10031 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10032 },
10033 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
10034 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
10035 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10036 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10037 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10038 &quot;sheetId&quot;: 42, # The sheet this range is on.
10039 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10040 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10041 },
10042 ],
10043 },
10044 },
10045 },
10046 &quot;lowSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the low/minimum value for each candle. This is the bottom of the candle&#x27;s center line.
10047 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
10048 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
10049 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
10050 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
10051 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
10052 },
10053 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
10054 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
10055 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
10056 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
10057 },
10058 },
10059 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
10060 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10061 },
10062 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
10063 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
10064 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10065 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10066 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10067 &quot;sheetId&quot;: 42, # The sheet this range is on.
10068 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10069 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10070 },
10071 ],
10072 },
10073 },
10074 },
10075 &quot;closeSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the close/final value for each candle. This is the top of the candle body. If greater than the open value the candle will be filled. Otherwise the candle will be hollow.
10076 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
10077 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
10078 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
10079 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
10080 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
10081 },
10082 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
10083 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
10084 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
10085 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
10086 },
10087 },
10088 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
10089 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10090 },
10091 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
10092 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
10093 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10094 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10095 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10096 &quot;sheetId&quot;: 42, # The sheet this range is on.
10097 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10098 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10099 },
10100 ],
10101 },
10102 },
10103 },
10104 },
10105 ],
10106 },
10107 &quot;basicChart&quot;: { # The specification for a basic chart. See BasicChartType for the list of charts this supports. # A basic chart specification, can be one of many kinds of charts. See BasicChartType for the list of all charts this supports.
10108 &quot;domains&quot;: [ # The domain of data this is charting. Only a single domain is supported.
10109 { # The domain of a chart. For example, if charting stock prices over time, this would be the date.
10110 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
10111 &quot;domain&quot;: { # The data included in a domain or series. # The data of the domain. For example, if charting stock prices over time, this is the data representing the dates.
10112 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
10113 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
10114 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
10115 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
10116 },
10117 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
10118 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
10119 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
10120 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
10121 },
10122 },
10123 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
10124 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10125 },
10126 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
10127 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
10128 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10129 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10130 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10131 &quot;sheetId&quot;: 42, # The sheet this range is on.
10132 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10133 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10134 },
10135 ],
10136 },
10137 },
10138 },
10139 ],
10140 &quot;compareMode&quot;: &quot;A String&quot;, # The behavior of tooltips and data highlighting when hovering on data and chart area.
10141 &quot;axis&quot;: [ # The axis on the chart.
10142 { # An axis of the chart. A chart may not have more than one axis per axis position.
10143 &quot;title&quot;: &quot;A String&quot;, # The title of this axis. If set, this overrides any title inferred from headers of the data.
10144 &quot;position&quot;: &quot;A String&quot;, # The position of this axis.
10145 &quot;titleTextPosition&quot;: { # Position settings for text. # The axis title text position.
10146 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
10147 },
10148 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the title. Only valid if the axis is not associated with the domain.
10149 &quot;bold&quot;: True or False, # True if the text is bold.
10150 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
10151 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
10152 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10153 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10154 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10155 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10156 },
10157 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
10158 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10159 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10160 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10161 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10162 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10163 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10164 },
10165 },
10166 &quot;italic&quot;: True or False, # True if the text is italicized.
10167 &quot;underline&quot;: True or False, # True if the text is underlined.
10168 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
10169 &quot;fontSize&quot;: 42, # The size of the font.
10170 },
10171 &quot;viewWindowOptions&quot;: { # The options that define a &quot;view window&quot; for a chart (such as the visible values in an axis). # The view window options for this axis.
10172 &quot;viewWindowMax&quot;: 3.14, # The maximum numeric value to be shown in this view window. If unset, will automatically determine a maximum value that looks good for the data.
10173 &quot;viewWindowMin&quot;: 3.14, # The minimum numeric value to be shown in this view window. If unset, will automatically determine a minimum value that looks good for the data.
10174 &quot;viewWindowMode&quot;: &quot;A String&quot;, # The view window&#x27;s mode.
10175 },
10176 },
10177 ],
10178 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
10179 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type for charts that support vertical stacking. Applies to Area, Bar, Column, Combo, and Stepped Area charts.
10180 &quot;threeDimensional&quot;: True or False, # True to make the chart 3D. Applies to Bar and Column charts.
10181 &quot;interpolateNulls&quot;: True or False, # If some values in a series are missing, gaps may appear in the chart (e.g, segments of lines in a line chart will be missing). To eliminate these gaps set this to true. Applies to Line, Area, and Combo charts.
10182 &quot;series&quot;: [ # The data this chart is visualizing.
10183 { # A single series of data in a chart. For example, if charting stock prices over time, multiple series may exist, one for the &quot;Open Price&quot;, &quot;High Price&quot;, &quot;Low Price&quot; and &quot;Close Price&quot;.
10184 &quot;series&quot;: { # The data included in a domain or series. # The data being visualized in this chart series.
10185 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
10186 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
10187 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
10188 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
10189 },
10190 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
10191 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
10192 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
10193 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
10194 },
10195 },
10196 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
10197 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10198 },
10199 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
10200 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
10201 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10202 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10203 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10204 &quot;sheetId&quot;: 42, # The sheet this range is on.
10205 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10206 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10207 },
10208 ],
10209 },
10210 },
10211 &quot;type&quot;: &quot;A String&quot;, # The type of this series. Valid only if the chartType is COMBO. Different types will change the way the series is visualized. Only LINE, AREA, and COLUMN are supported.
10212 &quot;targetAxis&quot;: &quot;A String&quot;, # The minor axis that will specify the range of values for this series. For example, if charting stocks over time, the &quot;Volume&quot; series may want to be pinned to the right with the prices pinned to the left, because the scale of trading volume is different than the scale of prices. It is an error to specify an axis that isn&#x27;t a valid minor axis for the chart&#x27;s type.
10213 &quot;colorStyle&quot;: { # A color value. # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used. If color is also set, this field takes precedence.
10214 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10215 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10216 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10217 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10218 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10219 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10220 },
10221 },
10222 &quot;lineStyle&quot;: { # Properties that describe the style of a line. # The line style of this series. Valid only if the chartType is AREA, LINE, or SCATTER. COMBO charts are also supported if the series chart type is AREA or LINE.
10223 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
10224 &quot;width&quot;: 42, # The thickness of the line, in px.
10225 },
10226 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used.
10227 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10228 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10229 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10230 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10231 },
10232 },
10233 ],
10234 &quot;chartType&quot;: &quot;A String&quot;, # The type of the chart.
10235 &quot;headerCount&quot;: 42, # The number of rows or columns in the data that are &quot;headers&quot;. If not set, Google Sheets will guess how many rows are headers based on the data. (Note that BasicChartAxis.title may override the axis title inferred from the header values.)
10236 &quot;lineSmoothing&quot;: True or False, # Gets whether all lines should be rendered smooth or straight by default. Applies to Line charts.
10237 },
10238 &quot;subtitleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The subtitle text format. Strikethrough and underline are not supported.
10239 &quot;bold&quot;: True or False, # True if the text is bold.
10240 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
10241 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
10242 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10243 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10244 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10245 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10246 },
10247 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
10248 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10249 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10250 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10251 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10252 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10253 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10254 },
10255 },
10256 &quot;italic&quot;: True or False, # True if the text is italicized.
10257 &quot;underline&quot;: True or False, # True if the text is underlined.
10258 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
10259 &quot;fontSize&quot;: 42, # The size of the font.
10260 },
10261 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the entire chart. Not applicable to Org charts.
10262 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10263 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10264 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10265 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10266 },
10267 },
10268 &quot;chartId&quot;: 42, # The ID of the chart.
10269 },
10270 ],
10271 &quot;slicers&quot;: [ # The slicers on this sheet.
10272 { # A slicer in a sheet.
10273 &quot;slicerId&quot;: 42, # The ID of the slicer.
10274 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the slicer. Note that slicer can be positioned only on existing sheet. Also, width and height of slicer can be automatically adjusted to keep it within permitted limits.
10275 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
10276 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
10277 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
10278 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
10279 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
10280 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
10281 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
10282 },
10283 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
10284 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
10285 },
10286 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
10287 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
10288 },
10289 &quot;spec&quot;: { # The specifications of a slicer. # The specification of the slicer.
10290 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The filtering criteria of the slicer.
10291 &quot;hiddenValues&quot;: [ # Values that should be hidden.
10292 &quot;A String&quot;,
10293 ],
10294 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
10295 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10296 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10297 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10298 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10299 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10300 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10301 },
10302 },
10303 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
10304 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
10305 { # The value of the condition.
10306 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
10307 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
10308 },
10309 ],
10310 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
10311 },
10312 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
10313 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10314 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10315 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10316 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10317 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10318 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10319 },
10320 },
10321 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
10322 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10323 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10324 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10325 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10326 },
10327 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
10328 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10329 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10330 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10331 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10332 },
10333 },
10334 &quot;title&quot;: &quot;A String&quot;, # The title of the slicer.
10335 &quot;dataRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The data range of the slicer.
10336 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10337 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10338 &quot;sheetId&quot;: 42, # The sheet this range is on.
10339 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10340 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10341 },
10342 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format of title in the slicer.
10343 &quot;bold&quot;: True or False, # True if the text is bold.
10344 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
10345 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
10346 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10347 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10348 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10349 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10350 },
10351 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
10352 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10353 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10354 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10355 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10356 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10357 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10358 },
10359 },
10360 &quot;italic&quot;: True or False, # True if the text is italicized.
10361 &quot;underline&quot;: True or False, # True if the text is underlined.
10362 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
10363 &quot;fontSize&quot;: 42, # The size of the font.
10364 },
10365 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the slicer.
10366 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10367 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10368 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10369 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10370 },
10371 &quot;columnIndex&quot;: 42, # The column index in the data table on which the filter is applied to.
10372 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the slicer. If background_color is also set, this field takes precedence.
10373 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10374 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10375 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10376 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10377 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10378 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10379 },
10380 },
10381 &quot;applyToPivotTables&quot;: True or False, # True if the filter should apply to pivot tables. If not set, default to `True`.
10382 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of title in the slicer. If unspecified, defaults to `LEFT`
10383 },
10384 },
10385 ],
10386 &quot;basicFilter&quot;: { # The default filter associated with a sheet. # The filter on this sheet, if any.
10387 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the filter covers.
10388 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10389 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10390 &quot;sheetId&quot;: 42, # The sheet this range is on.
10391 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10392 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10393 },
10394 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
10395 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
10396 &quot;hiddenValues&quot;: [ # Values that should be hidden.
10397 &quot;A String&quot;,
10398 ],
10399 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
10400 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10401 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10402 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10403 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10404 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10405 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10406 },
10407 },
10408 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
10409 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
10410 { # The value of the condition.
10411 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
10412 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
10413 },
10414 ],
10415 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
10416 },
10417 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
10418 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10419 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10420 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10421 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10422 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10423 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10424 },
10425 },
10426 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
10427 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10428 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10429 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10430 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10431 },
10432 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
10433 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10434 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10435 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10436 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10437 },
10438 },
10439 },
10440 &quot;filterSpecs&quot;: [ # The filter criteria per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
10441 { # The filter criteria associated with a specific column.
10442 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
10443 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10444 },
10445 &quot;columnIndex&quot;: 42, # The column index.
10446 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
10447 &quot;hiddenValues&quot;: [ # Values that should be hidden.
10448 &quot;A String&quot;,
10449 ],
10450 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
10451 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10452 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10453 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10454 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10455 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10456 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10457 },
10458 },
10459 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
10460 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
10461 { # The value of the condition.
10462 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
10463 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
10464 },
10465 ],
10466 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
10467 },
10468 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
10469 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10470 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10471 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10472 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10473 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10474 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10475 },
10476 },
10477 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
10478 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10479 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10480 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10481 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10482 },
10483 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
10484 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10485 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10486 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10487 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10488 },
10489 },
10490 },
10491 ],
10492 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
10493 { # A sort order associated with a specific column or row.
10494 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
10495 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10496 },
10497 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
10498 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
10499 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10500 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10501 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10502 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10503 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10504 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10505 },
10506 },
10507 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
10508 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10509 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10510 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10511 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10512 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10513 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10514 },
10515 },
10516 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
10517 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10518 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10519 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10520 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10521 },
10522 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
10523 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
10524 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10525 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10526 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10527 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10528 },
10529 },
10530 ],
10531 },
10532 &quot;merges&quot;: [ # The ranges that are merged together.
10533 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10534 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10535 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10536 &quot;sheetId&quot;: 42, # The sheet this range is on.
10537 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10538 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10539 },
10540 ],
10541 &quot;properties&quot;: { # Properties of a sheet. # The properties of the sheet.
10542 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
10543 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
10544 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
10545 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
10546 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
10547 &quot;rowCount&quot;: 42, # The number of rows in the grid.
10548 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
10549 &quot;columnCount&quot;: 42, # The number of columns in the grid.
10550 },
10551 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
10552 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10553 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10554 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10555 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10556 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10557 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10558 },
10559 },
10560 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
10561 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
10562 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
10563 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
10564 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10565 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10566 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10567 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10568 },
10569 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
10570 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
10571 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
10572 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
10573 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
10574 { # A column in a data source.
10575 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
10576 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
10577 },
10578 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
10579 },
10580 ],
10581 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
10582 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
10583 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
10584 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
10585 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
10586 },
10587 },
10588 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
10589 },
10590 &quot;protectedRanges&quot;: [ # The protected ranges in this sheet.
10591 { # A protected range.
10592 &quot;requestingUserCanEdit&quot;: True or False, # True if the user who requested this protected range can edit the protected area. This field is read-only.
10593 &quot;protectedRangeId&quot;: 42, # The ID of the protected range. This field is read-only.
10594 &quot;description&quot;: &quot;A String&quot;, # The description of this protected range.
10595 &quot;warningOnly&quot;: True or False, # True if this protected range will show a warning when editing. Warning-based protection means that every user can edit data in the protected range, except editing will prompt a warning asking the user to confirm the edit. When writing: if this field is true, then editors is ignored. Additionally, if this field is changed from true to false and the `editors` field is not set (nor included in the field mask), then the editors will be set to all the editors in the document.
10596 &quot;editors&quot;: { # The editors of a protected range. # The users and groups with edit access to the protected range. This field is only visible to users with edit access to the protected range and the document. Editors are not supported with warning_only protection.
10597 &quot;domainUsersCanEdit&quot;: True or False, # True if anyone in the document&#x27;s domain has edit access to the protected range. Domain protection is only supported on documents within a domain.
10598 &quot;groups&quot;: [ # The email addresses of groups with edit access to the protected range.
10599 &quot;A String&quot;,
10600 ],
10601 &quot;users&quot;: [ # The email addresses of users with edit access to the protected range.
10602 &quot;A String&quot;,
10603 ],
10604 },
10605 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this protected range is backed by, if any. When writing, only one of range or named_range_id may be set.
10606 &quot;unprotectedRanges&quot;: [ # The list of unprotected ranges within a protected sheet. Unprotected ranges are only supported on protected sheets.
10607 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10608 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10609 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10610 &quot;sheetId&quot;: 42, # The sheet this range is on.
10611 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10612 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10613 },
10614 ],
10615 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range that is being protected. The range may be fully unbounded, in which case this is considered a protected sheet. When writing, only one of range or named_range_id may be set.
10616 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10617 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10618 &quot;sheetId&quot;: 42, # The sheet this range is on.
10619 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10620 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
10621 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070010622 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070010623 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010624 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010625 ],
10626 &quot;properties&quot;: { # Properties of a spreadsheet. # Overall properties of a spreadsheet.
10627 &quot;timeZone&quot;: &quot;A String&quot;, # The time zone of the spreadsheet, in CLDR format such as `America/New_York`. If the time zone isn&#x27;t recognized, this may be a custom time zone such as `GMT-07:00`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010628 &quot;defaultFormat&quot;: { # The format of a cell. # The default format of all cells in the spreadsheet. CellData.effectiveFormat will not be set if the cell&#x27;s format is equal to this default format. This field is read-only.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010629 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
10630 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
10631 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
10632 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
10633 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
10634 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10635 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10636 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10637 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10638 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10639 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10640 },
10641 },
10642 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
10643 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10644 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10645 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10646 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10647 },
10648 },
10649 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
10650 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
10651 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
10652 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
10653 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10654 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10655 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10656 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10657 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10658 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10659 },
10660 },
10661 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
10662 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10663 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10664 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10665 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10666 },
10667 },
10668 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
10669 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
10670 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
10671 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
10672 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10673 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10674 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10675 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10676 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10677 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10678 },
10679 },
10680 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
10681 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10682 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10683 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10684 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10685 },
10686 },
10687 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
10688 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
10689 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
10690 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
10691 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10692 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10693 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10694 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10695 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10696 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10697 },
10698 },
10699 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
10700 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10701 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10702 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10703 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10704 },
10705 },
10706 },
10707 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
10708 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10709 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10710 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10711 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10712 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10713 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10714 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010715 },
10716 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
10717 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010718 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
10719 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
10720 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
10721 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010722 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
10723 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
10724 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
10725 &quot;bold&quot;: True or False, # True if the text is bold.
10726 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
10727 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010728 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10729 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010730 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10731 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010732 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010733 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
10734 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10735 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10736 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10737 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10738 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10739 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10740 },
10741 },
10742 &quot;italic&quot;: True or False, # True if the text is italicized.
10743 &quot;underline&quot;: True or False, # True if the text is underlined.
10744 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
10745 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010746 },
10747 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
10748 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
10749 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
10750 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010751 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
10752 &quot;bottom&quot;: 42, # The bottom padding of the cell.
10753 &quot;top&quot;: 42, # The top padding of the cell.
10754 &quot;right&quot;: 42, # The right padding of the cell.
10755 &quot;left&quot;: 42, # The left padding of the cell.
10756 },
10757 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
10758 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10759 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10760 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10761 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10762 },
10763 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070010764 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010765 &quot;locale&quot;: &quot;A String&quot;, # The locale of the spreadsheet in one of the following formats: * an ISO 639-1 language code such as `en` * an ISO 639-2 language code such as `fil`, if no 639-1 code exists * a combination of the ISO language code and country code, such as `en_US` Note: when updating this field, not all locales/languages are supported.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010766 &quot;iterativeCalculationSettings&quot;: { # Settings to control how circular dependencies are resolved with iterative calculation. # Determines whether and how circular references are resolved with iterative calculation. Absence of this field means that circular references result in calculation errors.
10767 &quot;maxIterations&quot;: 42, # When iterative calculation is enabled, the maximum number of calculation rounds to perform.
10768 &quot;convergenceThreshold&quot;: 3.14, # When iterative calculation is enabled and successive results differ by less than this threshold value, the calculation rounds stop.
10769 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010770 &quot;title&quot;: &quot;A String&quot;, # The title of the spreadsheet.
10771 &quot;spreadsheetTheme&quot;: { # Represents spreadsheet theme # Theme applied to the spreadsheet.
10772 &quot;themeColors&quot;: [ # The spreadsheet theme color pairs. To update you must provide all theme color pairs.
10773 { # A pair mapping a spreadsheet theme color type to the concrete color it represents.
10774 &quot;colorType&quot;: &quot;A String&quot;, # The type of the spreadsheet theme color.
10775 &quot;color&quot;: { # A color value. # The concrete color corresponding to the theme color type.
10776 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10777 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10778 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10779 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10780 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10781 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10782 },
10783 },
10784 },
10785 ],
10786 &quot;primaryFontFamily&quot;: &quot;A String&quot;, # Name of the primary font family.
10787 },
10788 &quot;autoRecalc&quot;: &quot;A String&quot;, # The amount of time to wait before volatile functions are recalculated.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070010789 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010790 &quot;dataSourceSchedules&quot;: [ # Output only. A list of data source refresh schedules.
10791 { # Schedule for refreshing the data source. Data sources in the spreadsheet are refreshed within a time interval. You can specify the start time by clicking the Scheduled Refresh button in the Sheets editor, but the interval is fixed at 4 hours. For example, if you specify a start time of 8am , the refresh will take place between 8am and 12pm every day.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010792 &quot;weeklySchedule&quot;: { # A weekly schedule for data to refresh on specific days in a given time interval. # Weekly refresh schedule.
10793 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010794 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010795 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010796 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
10797 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
10798 },
10799 &quot;daysOfWeek&quot;: [ # Days of the week to refresh. At least one day must be specified.
10800 &quot;A String&quot;,
10801 ],
10802 },
10803 &quot;refreshScope&quot;: &quot;A String&quot;, # The scope of the refresh. Must be ALL_DATA_SOURCES.
10804 &quot;dailySchedule&quot;: { # A schedule for data to refresh every day in a given time interval. # Daily refresh schedule.
10805 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010806 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010807 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010808 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
10809 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
10810 },
10811 },
10812 &quot;enabled&quot;: True or False, # True if the refresh schedule is enabled, or false otherwise.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010813 &quot;monthlySchedule&quot;: { # A monthly schedule for data to refresh on specific days in the month in a given time interval. # Monthly refresh schedule.
10814 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
10815 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
10816 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
10817 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
10818 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070010819 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010820 &quot;daysOfMonth&quot;: [ # Days of the month to refresh. Only 1-28 are supported, mapping to the 1st to the 28th day. At lesat one day must be specified.
10821 42,
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070010822 ],
10823 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010824 &quot;nextRun&quot;: { # Represents a time interval, encoded as a Timestamp start (inclusive) and a Timestamp end (exclusive). The start must be less than or equal to the end. When the start equals the end, the interval is empty (matches no time). When both start and end are unspecified, the interval matches any time. # Output only. The time interval of the next run.
10825 &quot;endTime&quot;: &quot;A String&quot;, # Optional. Exclusive end of the interval. If specified, a Timestamp matching this interval will have to be before the end.
10826 &quot;startTime&quot;: &quot;A String&quot;, # Optional. Inclusive start of the interval. If specified, a Timestamp matching this interval will have to be the same or after the start.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010827 },
10828 },
10829 ],
10830 },
10831 &quot;replies&quot;: [ # The reply of the updates. This maps 1:1 with the updates, although replies to some requests may be empty.
10832 { # A single response from an update.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010833 &quot;updateConditionalFormatRule&quot;: { # The result of updating a conditional format rule. # A reply from updating a conditional format rule.
10834 &quot;newIndex&quot;: 42, # The index of the new rule.
10835 &quot;oldIndex&quot;: 42, # The old index of the rule. Not set if a rule was replaced (because it is the same as new_index).
10836 &quot;oldRule&quot;: { # A rule describing a conditional format. # The old (deleted) rule. Not set if a rule was moved (because it is the same as new_rule).
10837 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
10838 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
10839 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
10840 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
10841 &quot;sheetId&quot;: 42, # The sheet this range is on.
10842 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
10843 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010844 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010845 ],
10846 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
10847 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
10848 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
10849 { # The value of the condition.
10850 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
10851 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
10852 },
10853 ],
10854 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
10855 },
10856 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
10857 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
10858 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
10859 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
10860 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
10861 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
10862 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10863 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10864 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10865 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10866 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10867 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10868 },
10869 },
10870 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
10871 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10872 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10873 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10874 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10875 },
10876 },
10877 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
10878 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
10879 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
10880 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
10881 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10882 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10883 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10884 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10885 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10886 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10887 },
10888 },
10889 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
10890 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10891 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10892 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10893 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10894 },
10895 },
10896 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
10897 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
10898 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
10899 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
10900 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10901 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10902 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10903 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10904 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10905 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10906 },
10907 },
10908 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
10909 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10910 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10911 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10912 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10913 },
10914 },
10915 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
10916 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
10917 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
10918 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
10919 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10920 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10921 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10922 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10923 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10924 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10925 },
10926 },
10927 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
10928 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10929 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10930 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10931 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10932 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010933 },
10934 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010935 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
10936 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10937 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10938 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10939 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10940 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10941 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10942 },
10943 },
10944 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
10945 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
10946 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
10947 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
10948 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
10949 },
10950 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
10951 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
10952 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
10953 &quot;bold&quot;: True or False, # True if the text is bold.
10954 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
10955 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
10956 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10957 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10958 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10959 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10960 },
10961 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
10962 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10963 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10964 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10965 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10966 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10967 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10968 },
10969 },
10970 &quot;italic&quot;: True or False, # True if the text is italicized.
10971 &quot;underline&quot;: True or False, # True if the text is underlined.
10972 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
10973 &quot;fontSize&quot;: 42, # The size of the font.
10974 },
10975 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
10976 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
10977 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
10978 },
10979 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
10980 &quot;bottom&quot;: 42, # The bottom padding of the cell.
10981 &quot;top&quot;: 42, # The top padding of the cell.
10982 &quot;right&quot;: 42, # The right padding of the cell.
10983 &quot;left&quot;: 42, # The left padding of the cell.
10984 },
10985 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
10986 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
10987 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
10988 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
10989 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
10990 },
10991 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010992 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080010993 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080010994 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
10995 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
10996 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
10997 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
10998 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
10999 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11000 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11001 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11002 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11003 },
11004 },
11005 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
11006 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11007 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11008 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11009 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11010 },
11011 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
11012 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
11013 },
11014 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
11015 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
11016 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11017 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11018 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11019 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11020 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11021 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11022 },
11023 },
11024 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
11025 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11026 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11027 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11028 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11029 },
11030 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
11031 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
11032 },
11033 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
11034 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
11035 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11036 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11037 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11038 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11039 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11040 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11041 },
11042 },
11043 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
11044 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11045 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11046 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11047 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11048 },
11049 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
11050 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
11051 },
11052 },
11053 },
11054 &quot;newRule&quot;: { # A rule describing a conditional format. # The new rule that replaced the old rule (if replacing), or the rule that was moved (if moved)
11055 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
11056 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11057 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11058 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11059 &quot;sheetId&quot;: 42, # The sheet this range is on.
11060 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11061 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11062 },
11063 ],
11064 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
11065 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
11066 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
11067 { # The value of the condition.
11068 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
11069 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
11070 },
11071 ],
11072 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
11073 },
11074 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
11075 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
11076 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
11077 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
11078 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
11079 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
11080 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11081 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11082 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11083 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11084 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11085 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11086 },
11087 },
11088 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
11089 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11090 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11091 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11092 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11093 },
11094 },
11095 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
11096 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
11097 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
11098 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
11099 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11100 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11101 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11102 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11103 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11104 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11105 },
11106 },
11107 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
11108 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11109 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11110 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11111 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11112 },
11113 },
11114 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
11115 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
11116 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
11117 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
11118 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11119 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11120 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11121 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11122 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11123 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11124 },
11125 },
11126 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
11127 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11128 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11129 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11130 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11131 },
11132 },
11133 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
11134 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
11135 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
11136 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
11137 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11138 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11139 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11140 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11141 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11142 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11143 },
11144 },
11145 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
11146 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11147 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11148 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11149 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11150 },
11151 },
11152 },
11153 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
11154 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11155 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11156 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11157 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11158 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11159 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11160 },
11161 },
11162 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
11163 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
11164 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
11165 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
11166 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
11167 },
11168 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
11169 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
11170 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
11171 &quot;bold&quot;: True or False, # True if the text is bold.
11172 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
11173 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
11174 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11175 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11176 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11177 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11178 },
11179 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
11180 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11181 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11182 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11183 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11184 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11185 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11186 },
11187 },
11188 &quot;italic&quot;: True or False, # True if the text is italicized.
11189 &quot;underline&quot;: True or False, # True if the text is underlined.
11190 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
11191 &quot;fontSize&quot;: 42, # The size of the font.
11192 },
11193 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
11194 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
11195 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
11196 },
11197 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
11198 &quot;bottom&quot;: 42, # The bottom padding of the cell.
11199 &quot;top&quot;: 42, # The top padding of the cell.
11200 &quot;right&quot;: 42, # The right padding of the cell.
11201 &quot;left&quot;: 42, # The left padding of the cell.
11202 },
11203 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
11204 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11205 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11206 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11207 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11208 },
11209 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
11210 },
11211 },
11212 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
11213 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
11214 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
11215 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11216 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11217 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11218 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11219 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11220 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11221 },
11222 },
11223 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
11224 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11225 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11226 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11227 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11228 },
11229 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
11230 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
11231 },
11232 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
11233 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
11234 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11235 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11236 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11237 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11238 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11239 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11240 },
11241 },
11242 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
11243 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11244 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11245 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11246 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11247 },
11248 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
11249 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
11250 },
11251 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
11252 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
11253 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11254 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11255 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11256 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11257 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11258 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11259 },
11260 },
11261 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
11262 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11263 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11264 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11265 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11266 },
11267 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
11268 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
11269 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011270 },
11271 },
11272 },
11273 &quot;addChart&quot;: { # The result of adding a chart to a spreadsheet. # A reply from adding a chart.
11274 &quot;chart&quot;: { # A chart embedded in a sheet. # The newly added chart.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011275 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the chart.
11276 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
11277 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
11278 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
11279 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
11280 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
11281 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
11282 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011283 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011284 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
11285 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011286 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011287 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
11288 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
11289 },
11290 &quot;spec&quot;: { # The specifications of a chart. # The specification of the chart.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011291 &quot;subtitleTextPosition&quot;: { # Position settings for text. # The subtitle text position. This field is optional.
11292 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
11293 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011294 &quot;orgChart&quot;: { # An org chart. Org charts require a unique set of labels in labels and may optionally include parent_labels and tooltips. parent_labels contain, for each node, the label identifying the parent node. tooltips contain, for each node, an optional tooltip. For example, to describe an OrgChart with Alice as the CEO, Bob as the President (reporting to Alice) and Cathy as VP of Sales (also reporting to Alice), have labels contain &quot;Alice&quot;, &quot;Bob&quot;, &quot;Cathy&quot;, parent_labels contain &quot;&quot;, &quot;Alice&quot;, &quot;Alice&quot; and tooltips contain &quot;CEO&quot;, &quot;President&quot;, &quot;VP Sales&quot;. # An org chart specification.
11295 &quot;nodeSize&quot;: &quot;A String&quot;, # The size of the org chart nodes.
11296 &quot;nodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the org chart nodes.
11297 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11298 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11299 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11300 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011301 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011302 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data containing the label of the parent for the corresponding node. A blank value indicates that the node has no parent and is a top-level node. This field is optional.
11303 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011304 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11305 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11306 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11307 },
11308 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11309 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011310 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011311 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011312 },
11313 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011314 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11315 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11316 },
11317 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11318 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11319 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11320 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011321 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11322 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011323 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011324 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11325 },
11326 ],
11327 },
11328 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011329 &quot;selectedNodeColorStyle&quot;: { # A color value. # The color of the selected org chart nodes. If selected_node_color is also set, this field takes precedence.
11330 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11331 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11332 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11333 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11334 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11335 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11336 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011337 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011338 &quot;selectedNodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the selected org chart nodes.
11339 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11340 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11341 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11342 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11343 },
11344 &quot;labels&quot;: { # The data included in a domain or series. # The data containing the labels for all the nodes in the chart. Labels must be unique.
11345 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011346 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11347 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11348 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11349 },
11350 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11351 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011352 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011353 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011354 },
11355 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011356 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11357 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11358 },
11359 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11360 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11361 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11362 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011363 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11364 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011365 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11366 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11367 },
11368 ],
11369 },
11370 },
11371 &quot;tooltips&quot;: { # The data included in a domain or series. # The data containing the tooltip for the corresponding node. A blank value results in no tooltip being displayed for the node. This field is optional.
11372 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11373 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11374 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11375 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11376 },
11377 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11378 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11379 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11380 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11381 },
11382 },
11383 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11384 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11385 },
11386 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11387 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11388 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11389 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11390 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11391 &quot;sheetId&quot;: 42, # The sheet this range is on.
11392 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11393 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11394 },
11395 ],
11396 },
11397 },
11398 &quot;nodeColorStyle&quot;: { # A color value. # The color of the org chart nodes. If node_color is also set, this field takes precedence.
11399 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11400 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11401 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11402 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11403 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11404 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11405 },
11406 },
11407 },
11408 &quot;fontName&quot;: &quot;A String&quot;, # The name of the font to use by default for all chart text (e.g. title, axis labels, legend). If a font is specified for a specific part of the chart it will override this font name.
11409 &quot;scorecardChart&quot;: { # A scorecard chart. Scorecard charts are used to highlight key performance indicators, known as KPIs, on the spreadsheet. A scorecard chart can represent things like total sales, average cost, or a top selling item. You can specify a single data value, or aggregate over a range of data. Percentage or absolute difference from a baseline value can be highlighted, like changes over time. # A scorecard chart specification.
11410 &quot;customFormatOptions&quot;: { # Custom number formatting options for chart attributes. # Custom formatting options for numeric key/baseline values in scorecard chart. This field is used only when number_format_source is set to CUSTOM. This field is optional.
11411 &quot;prefix&quot;: &quot;A String&quot;, # Custom prefix to be prepended to the chart attribute. This field is optional.
11412 &quot;suffix&quot;: &quot;A String&quot;, # Custom suffix to be appended to the chart attribute. This field is optional.
11413 },
11414 &quot;baselineValueData&quot;: { # The data included in a domain or series. # The data for scorecard baseline value. This field is optional.
11415 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11416 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11417 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11418 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11419 },
11420 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11421 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11422 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11423 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11424 },
11425 },
11426 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11427 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11428 },
11429 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11430 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11431 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11432 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11433 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11434 &quot;sheetId&quot;: 42, # The sheet this range is on.
11435 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011436 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11437 },
11438 ],
11439 },
11440 },
11441 &quot;scaleFactor&quot;: 3.14, # Value to scale scorecard key and baseline value. For example, a factor of 10 can be used to divide all values in the chart by 10. This field is optional.
11442 &quot;baselineValueFormat&quot;: { # Formatting options for baseline value. # Formatting options for baseline value. This field is needed only if baseline_value_data is specified.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011443 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for baseline value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011444 &quot;bold&quot;: True or False, # True if the text is bold.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011445 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
11446 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011447 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11448 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011449 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11450 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011451 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011452 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011453 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011454 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011455 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11456 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011457 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11458 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011459 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011460 },
11461 &quot;italic&quot;: True or False, # True if the text is italicized.
11462 &quot;underline&quot;: True or False, # True if the text is underlined.
11463 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
11464 &quot;fontSize&quot;: 42, # The size of the font.
11465 },
11466 &quot;comparisonType&quot;: &quot;A String&quot;, # The comparison type of key value with baseline value.
11467 &quot;negativeColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a negative change for key value. This field is optional. If negative_color is also set, this field takes precedence.
11468 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11469 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11470 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11471 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11472 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11473 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011474 },
11475 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011476 &quot;positiveColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a positive change for key value. This field is optional. If positive_color is also set, this field takes precedence.
11477 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11478 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11479 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11480 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11481 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11482 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11483 },
11484 },
11485 &quot;description&quot;: &quot;A String&quot;, # Description which is appended after the baseline value. This field is optional.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011486 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of baseline value. This field is optional. If not specified, default positioning is used.
11487 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
11488 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011489 &quot;negativeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a negative change for key value. This field is optional.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011490 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11491 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011492 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11493 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11494 },
11495 &quot;positiveColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a positive change for key value. This field is optional.
11496 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11497 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11498 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11499 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011500 },
11501 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011502 &quot;keyValueData&quot;: { # The data included in a domain or series. # The data for scorecard key value.
11503 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11504 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11505 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11506 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11507 },
11508 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11509 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11510 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11511 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11512 },
11513 },
11514 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11515 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11516 },
11517 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11518 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11519 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11520 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11521 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11522 &quot;sheetId&quot;: 42, # The sheet this range is on.
11523 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11524 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11525 },
11526 ],
11527 },
11528 },
11529 &quot;numberFormatSource&quot;: &quot;A String&quot;, # The number format source used in the scorecard chart. This field is optional.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011530 &quot;keyValueFormat&quot;: { # Formatting options for key value. # Formatting options for key value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011531 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for key value.
11532 &quot;bold&quot;: True or False, # True if the text is bold.
11533 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
11534 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
11535 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11536 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11537 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11538 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11539 },
11540 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
11541 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11542 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11543 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11544 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11545 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11546 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11547 },
11548 },
11549 &quot;italic&quot;: True or False, # True if the text is italicized.
11550 &quot;underline&quot;: True or False, # True if the text is underlined.
11551 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
11552 &quot;fontSize&quot;: 42, # The size of the font.
11553 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011554 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of key value. This field is optional. If not specified, default positioning is used.
11555 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
11556 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011557 },
11558 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for key and baseline chart data in scorecard chart. This field is not supported for data source charts. Use the ChartData.aggregateType field of the key_value_data or baseline_value_data instead for data source charts. This field is optional.
11559 },
11560 &quot;sortSpecs&quot;: [ # The order to sort the chart data by. Only a single sort spec is supported. Only supported for data source charts.
11561 { # A sort order associated with a specific column or row.
11562 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
11563 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11564 },
11565 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
11566 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
11567 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11568 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011569 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11570 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011571 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11572 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011573 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011574 },
11575 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
11576 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11577 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11578 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11579 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11580 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11581 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11582 },
11583 },
11584 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
11585 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11586 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11587 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11588 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11589 },
11590 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
11591 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
11592 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11593 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11594 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11595 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11596 },
11597 },
11598 ],
11599 &quot;title&quot;: &quot;A String&quot;, # The title of the chart.
11600 &quot;titleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The title text format. Strikethrough and underline are not supported.
11601 &quot;bold&quot;: True or False, # True if the text is bold.
11602 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
11603 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
11604 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11605 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11606 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11607 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11608 },
11609 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
11610 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11611 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11612 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11613 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11614 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11615 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11616 },
11617 },
11618 &quot;italic&quot;: True or False, # True if the text is italicized.
11619 &quot;underline&quot;: True or False, # True if the text is underlined.
11620 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
11621 &quot;fontSize&quot;: 42, # The size of the font.
11622 },
11623 &quot;maximized&quot;: True or False, # True to make a chart fill the entire space in which it&#x27;s rendered with minimum padding. False to use the default padding. (Not applicable to Geo and Org charts.)
11624 &quot;dataSourceChartProperties&quot;: { # Properties of a data source chart. # If present, the field contains data source chart specific properties.
11625 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the data source that the chart is associated with.
11626 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
11627 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
11628 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
11629 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
11630 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
11631 },
11632 },
11633 &quot;waterfallChart&quot;: { # A waterfall chart. # A waterfall chart specification.
11634 &quot;hideConnectorLines&quot;: True or False, # True to hide connector lines between columns.
11635 &quot;connectorLineStyle&quot;: { # Properties that describe the style of a line. # The line style for the connector lines.
11636 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
11637 &quot;width&quot;: 42, # The thickness of the line, in px.
11638 },
11639 &quot;series&quot;: [ # The data this waterfall chart is visualizing.
11640 { # A single series of data for a waterfall chart.
11641 &quot;data&quot;: { # The data included in a domain or series. # The data being visualized in this series.
11642 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11643 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11644 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11645 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11646 },
11647 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11648 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11649 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11650 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11651 },
11652 },
11653 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11654 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11655 },
11656 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11657 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11658 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11659 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11660 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11661 &quot;sheetId&quot;: 42, # The sheet this range is on.
11662 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11663 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11664 },
11665 ],
11666 },
11667 },
11668 &quot;subtotalColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all subtotal columns in this series.
11669 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
11670 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011671 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11672 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011673 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11674 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011675 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011676 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
11677 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11678 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11679 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11680 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11681 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11682 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11683 },
11684 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080011685 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080011686 &quot;negativeColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with negative values.
11687 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
11688 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
11689 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11690 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11691 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11692 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11693 },
11694 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
11695 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11696 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11697 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11698 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11699 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11700 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11701 },
11702 },
11703 },
11704 &quot;hideTrailingSubtotal&quot;: True or False, # True to hide the subtotal column from the end of the series. By default, a subtotal column will appear at the end of each series. Setting this field to true will hide that subtotal column for this series.
11705 &quot;customSubtotals&quot;: [ # Custom subtotal columns appearing in this series. The order in which subtotals are defined is not significant. Only one subtotal may be defined for each data point.
11706 { # A custom subtotal column for a waterfall chart series.
11707 &quot;subtotalIndex&quot;: 42, # The 0-based index of a data point within the series. If data_is_subtotal is true, the data point at this index is the subtotal. Otherwise, the subtotal appears after the data point with this index. A series can have multiple subtotals at arbitrary indices, but subtotals do not affect the indices of the data points. For example, if a series has three data points, their indices will always be 0, 1, and 2, regardless of how many subtotals exist on the series or what data points they are associated with.
11708 &quot;label&quot;: &quot;A String&quot;, # A label for the subtotal column.
11709 &quot;dataIsSubtotal&quot;: True or False, # True if the data point at subtotal_index is the subtotal. If false, the subtotal will be computed and appear after the data point.
11710 },
11711 ],
11712 &quot;positiveColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with positive values.
11713 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
11714 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
11715 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11716 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11717 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11718 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11719 },
11720 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
11721 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11722 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11723 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11724 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11725 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11726 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11727 },
11728 },
11729 },
11730 },
11731 ],
11732 &quot;domain&quot;: { # The domain of a waterfall chart. # The domain data (horizontal axis) for the waterfall chart.
11733 &quot;data&quot;: { # The data included in a domain or series. # The data of the WaterfallChartDomain.
11734 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11735 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11736 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11737 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11738 },
11739 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11740 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11741 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11742 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11743 },
11744 },
11745 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11746 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11747 },
11748 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11749 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11750 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11751 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11752 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11753 &quot;sheetId&quot;: 42, # The sheet this range is on.
11754 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11755 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11756 },
11757 ],
11758 },
11759 },
11760 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
11761 },
11762 &quot;firstValueIsTotal&quot;: True or False, # True to interpret the first value as a total.
11763 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type.
11764 },
11765 &quot;histogramChart&quot;: { # A histogram chart. A histogram chart groups data items into bins, displaying each bin as a column of stacked items. Histograms are used to display the distribution of a dataset. Each column of items represents a range into which those items fall. The number of bins can be chosen automatically or specified explicitly. # A histogram chart specification.
11766 &quot;series&quot;: [ # The series for a histogram may be either a single series of values to be bucketed or multiple series, each of the same length, containing the name of the series followed by the values to be bucketed for that series.
11767 { # A histogram series containing the series color and data.
11768 &quot;data&quot;: { # The data included in a domain or series. # The data for this histogram series.
11769 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11770 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11771 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11772 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11773 },
11774 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11775 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11776 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11777 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11778 },
11779 },
11780 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11781 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11782 },
11783 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11784 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11785 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11786 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11787 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11788 &quot;sheetId&quot;: 42, # The sheet this range is on.
11789 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11790 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11791 },
11792 ],
11793 },
11794 },
11795 &quot;barColorStyle&quot;: { # A color value. # The color of the column representing this series in each bucket. This field is optional. If bar_color is also set, this field takes precedence.
11796 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11797 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11798 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11799 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11800 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11801 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11802 },
11803 },
11804 &quot;barColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column representing this series in each bucket. This field is optional.
11805 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11806 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11807 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11808 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11809 },
11810 },
11811 ],
11812 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
11813 &quot;showItemDividers&quot;: True or False, # Whether horizontal divider lines should be displayed between items in each column.
11814 &quot;outlierPercentile&quot;: 3.14, # The outlier percentile is used to ensure that outliers do not adversely affect the calculation of bucket sizes. For example, setting an outlier percentile of 0.05 indicates that the top and bottom 5% of values when calculating buckets. The values are still included in the chart, they will be added to the first or last buckets instead of their own buckets. Must be between 0.0 and 0.5.
11815 &quot;bucketSize&quot;: 3.14, # By default the bucket size (the range of values stacked in a single column) is chosen automatically, but it may be overridden here. E.g., A bucket size of 1.5 results in buckets from 0 - 1.5, 1.5 - 3.0, etc. Cannot be negative. This field is optional.
11816 },
11817 &quot;hiddenDimensionStrategy&quot;: &quot;A String&quot;, # Determines how the charts will use hidden rows or columns.
11818 &quot;bubbleChart&quot;: { # A bubble chart. # A bubble chart specification.
11819 &quot;bubbleMaxRadiusSize&quot;: 42, # The max radius size of the bubbles, in pixels. If specified, the field must be a positive value.
11820 &quot;bubbleSizes&quot;: { # The data included in a domain or series. # The data contianing the bubble sizes. Bubble sizes are used to draw the bubbles at different sizes relative to each other. If specified, group_ids must also be specified. This field is optional.
11821 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11822 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11823 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11824 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11825 },
11826 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11827 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11828 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11829 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11830 },
11831 },
11832 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11833 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11834 },
11835 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11836 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11837 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11838 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11839 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11840 &quot;sheetId&quot;: 42, # The sheet this range is on.
11841 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11842 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11843 },
11844 ],
11845 },
11846 },
11847 &quot;groupIds&quot;: { # The data included in a domain or series. # The data containing the bubble group IDs. All bubbles with the same group ID are drawn in the same color. If bubble_sizes is specified then this field must also be specified but may contain blank values. This field is optional.
11848 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11849 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11850 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11851 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11852 },
11853 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11854 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11855 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11856 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11857 },
11858 },
11859 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11860 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11861 },
11862 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11863 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11864 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11865 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11866 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11867 &quot;sheetId&quot;: 42, # The sheet this range is on.
11868 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11869 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11870 },
11871 ],
11872 },
11873 },
11874 &quot;bubbleOpacity&quot;: 3.14, # The opacity of the bubbles between 0 and 1.0. 0 is fully transparent and 1 is fully opaque.
11875 &quot;bubbleLabels&quot;: { # The data included in a domain or series. # The data containing the bubble labels. These do not need to be unique.
11876 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11877 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11878 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11879 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11880 },
11881 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11882 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11883 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11884 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11885 },
11886 },
11887 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11888 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11889 },
11890 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11891 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11892 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11893 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11894 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11895 &quot;sheetId&quot;: 42, # The sheet this range is on.
11896 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11897 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11898 },
11899 ],
11900 },
11901 },
11902 &quot;bubbleBorderColorStyle&quot;: { # A color value. # The bubble border color. If bubble_border_color is also set, this field takes precedence.
11903 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11904 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11905 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11906 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11907 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11908 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11909 },
11910 },
11911 &quot;domain&quot;: { # The data included in a domain or series. # The data containing the bubble x-values. These values locate the bubbles in the chart horizontally.
11912 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11913 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11914 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11915 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11916 },
11917 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11918 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11919 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11920 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11921 },
11922 },
11923 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11924 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11925 },
11926 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11927 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11928 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11929 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11930 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11931 &quot;sheetId&quot;: 42, # The sheet this range is on.
11932 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11933 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11934 },
11935 ],
11936 },
11937 },
11938 &quot;bubbleTextStyle&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text inside the bubbles. Strikethrough and underline are not supported.
11939 &quot;bold&quot;: True or False, # True if the text is bold.
11940 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
11941 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
11942 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11943 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11944 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11945 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11946 },
11947 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
11948 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
11949 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
11950 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11951 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11952 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11953 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11954 },
11955 },
11956 &quot;italic&quot;: True or False, # True if the text is italicized.
11957 &quot;underline&quot;: True or False, # True if the text is underlined.
11958 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
11959 &quot;fontSize&quot;: 42, # The size of the font.
11960 },
11961 &quot;bubbleMinRadiusSize&quot;: 42, # The minimum radius size of the bubbles, in pixels. If specific, the field must be a positive value.
11962 &quot;bubbleBorderColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The bubble border color.
11963 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
11964 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
11965 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
11966 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
11967 },
11968 &quot;series&quot;: { # The data included in a domain or series. # The data contianing the bubble y-values. These values locate the bubbles in the chart vertically.
11969 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
11970 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
11971 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
11972 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
11973 },
11974 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
11975 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
11976 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
11977 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
11978 },
11979 },
11980 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
11981 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
11982 },
11983 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
11984 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
11985 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
11986 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
11987 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
11988 &quot;sheetId&quot;: 42, # The sheet this range is on.
11989 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
11990 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
11991 },
11992 ],
11993 },
11994 },
11995 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the chart should be drawn.
11996 },
11997 &quot;subtitle&quot;: &quot;A String&quot;, # The subtitle of the chart.
11998 &quot;pieChart&quot;: { # A pie chart. # A pie chart specification.
11999 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the pie chart should be drawn.
12000 &quot;threeDimensional&quot;: True or False, # True if the pie is three dimensional.
12001 &quot;domain&quot;: { # The data included in a domain or series. # The data that covers the domain of the pie chart.
12002 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
12003 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12004 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12005 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12006 },
12007 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12008 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
12009 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
12010 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
12011 },
12012 },
12013 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12014 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12015 },
12016 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12017 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12018 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12019 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12020 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12021 &quot;sheetId&quot;: 42, # The sheet this range is on.
12022 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12023 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12024 },
12025 ],
12026 },
12027 },
12028 &quot;pieHole&quot;: 3.14, # The size of the hole in the pie chart.
12029 &quot;series&quot;: { # The data included in a domain or series. # The data that covers the one and only series of the pie chart.
12030 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
12031 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12032 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12033 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12034 },
12035 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12036 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
12037 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
12038 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
12039 },
12040 },
12041 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12042 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12043 },
12044 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12045 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12046 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12047 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12048 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12049 &quot;sheetId&quot;: 42, # The sheet this range is on.
12050 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12051 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12052 },
12053 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012054 },
12055 },
12056 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012057 &quot;treemapChart&quot;: { # A Treemap chart. # A treemap chart specification.
12058 &quot;headerColorStyle&quot;: { # A color value. # The background color for header cells. If header_color is also set, this field takes precedence.
12059 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12060 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12061 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12062 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12063 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12064 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12065 },
12066 },
12067 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data the contains the treemap cells&#x27; parent labels.
12068 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
12069 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12070 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12071 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12072 },
12073 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12074 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
12075 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
12076 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
12077 },
12078 },
12079 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12080 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12081 },
12082 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12083 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12084 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12085 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12086 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12087 &quot;sheetId&quot;: 42, # The sheet this range is on.
12088 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12089 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12090 },
12091 ],
12092 },
12093 },
12094 &quot;minValue&quot;: 3.14, # The minimum possible data value. Cells with values less than this will have the same color as cells with this value. If not specified, defaults to the actual minimum value from color_data, or the minimum value from size_data if color_data is not specified.
12095 &quot;hintedLevels&quot;: 42, # The number of additional data levels beyond the labeled levels to be shown on the treemap chart. These levels are not interactive and are shown without their labels. Defaults to 0 if not specified.
12096 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for header cells.
12097 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12098 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12099 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12100 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12101 },
12102 &quot;maxValue&quot;: 3.14, # The maximum possible data value. Cells with values greater than this will have the same color as cells with this value. If not specified, defaults to the actual maximum value from color_data, or the maximum value from size_data if color_data is not specified.
12103 &quot;sizeData&quot;: { # The data included in a domain or series. # The data that determines the size of each treemap data cell. This data is expected to be numeric. The cells corresponding to non-numeric or missing data will not be rendered. If color_data is not specified, this data is used to determine data cell background colors as well.
12104 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
12105 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12106 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12107 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12108 },
12109 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12110 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
12111 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
12112 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
12113 },
12114 },
12115 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12116 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12117 },
12118 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12119 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12120 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12121 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12122 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12123 &quot;sheetId&quot;: 42, # The sheet this range is on.
12124 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12125 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12126 },
12127 ],
12128 },
12129 },
12130 &quot;labels&quot;: { # The data included in a domain or series. # The data that contains the treemap cell labels.
12131 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
12132 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12133 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12134 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12135 },
12136 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12137 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
12138 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
12139 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
12140 },
12141 },
12142 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12143 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12144 },
12145 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12146 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12147 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12148 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12149 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12150 &quot;sheetId&quot;: 42, # The sheet this range is on.
12151 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12152 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12153 },
12154 ],
12155 },
12156 },
12157 &quot;colorData&quot;: { # The data included in a domain or series. # The data that determines the background color of each treemap data cell. This field is optional. If not specified, size_data is used to determine background colors. If specified, the data is expected to be numeric. color_scale will determine how the values in this data map to data cell background colors.
12158 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
12159 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12160 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12161 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12162 },
12163 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12164 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
12165 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
12166 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
12167 },
12168 },
12169 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12170 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12171 },
12172 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12173 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12174 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12175 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12176 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12177 &quot;sheetId&quot;: 42, # The sheet this range is on.
12178 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12179 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12180 },
12181 ],
12182 },
12183 },
12184 &quot;colorScale&quot;: { # A color scale for a treemap chart. # The color scale for data cells in the treemap chart. Data cells are assigned colors based on their color values. These color values come from color_data, or from size_data if color_data is not specified. Cells with color values less than or equal to min_value will have minValueColor as their background color. Cells with color values greater than or equal to max_value will have maxValueColor as their background color. Cells with color values between min_value and max_value will have background colors on a gradient between minValueColor and maxValueColor, the midpoint of the gradient being midValueColor. Cells with missing or non-numeric color values will have noDataColor as their background color.
12185 &quot;midValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified.
12186 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12187 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12188 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12189 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12190 },
12191 &quot;maxValueColorStyle&quot;: { # A color value. # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified. If max_value_color is also set, this field takes precedence.
12192 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12193 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12194 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12195 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12196 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12197 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12198 },
12199 },
12200 &quot;minValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified.
12201 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12202 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12203 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12204 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12205 },
12206 &quot;noDataColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified.
12207 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12208 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12209 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12210 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12211 },
12212 &quot;noDataColorStyle&quot;: { # A color value. # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified. If no_data_color is also set, this field takes precedence.
12213 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12214 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12215 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12216 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12217 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12218 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12219 },
12220 },
12221 &quot;midValueColorStyle&quot;: { # A color value. # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified. If mid_value_color is also set, this field takes precedence.
12222 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12223 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12224 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12225 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12226 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12227 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12228 },
12229 },
12230 &quot;maxValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified.
12231 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12232 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12233 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12234 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12235 },
12236 &quot;minValueColorStyle&quot;: { # A color value. # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified. If min_value_color is also set, this field takes precedence.
12237 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12238 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12239 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12240 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12241 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12242 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12243 },
12244 },
12245 },
12246 &quot;hideTooltips&quot;: True or False, # True to hide tooltips.
12247 &quot;levels&quot;: 42, # The number of data levels to show on the treemap chart. These levels are interactive and are shown with their labels. Defaults to 2 if not specified.
12248 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format for all labels on the chart.
12249 &quot;bold&quot;: True or False, # True if the text is bold.
12250 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
12251 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
12252 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12253 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12254 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12255 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12256 },
12257 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
12258 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12259 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12260 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12261 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12262 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12263 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12264 },
12265 },
12266 &quot;italic&quot;: True or False, # True if the text is italicized.
12267 &quot;underline&quot;: True or False, # True if the text is underlined.
12268 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
12269 &quot;fontSize&quot;: 42, # The size of the font.
12270 },
12271 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012272 &quot;titleTextPosition&quot;: { # Position settings for text. # The title text position. This field is optional.
12273 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
12274 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012275 &quot;altText&quot;: &quot;A String&quot;, # The alternative text that describes the chart. This is often used for accessibility.
12276 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the entire chart. Not applicable to Org charts. If background_color is also set, this field takes precedence.
12277 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12278 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012279 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12280 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012281 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12282 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012283 },
12284 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012285 &quot;filterSpecs&quot;: [ # The filters applied to the source data of the chart. Only supported for data source charts.
12286 { # The filter criteria associated with a specific column.
12287 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
12288 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12289 },
12290 &quot;columnIndex&quot;: 42, # The column index.
12291 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
12292 &quot;hiddenValues&quot;: [ # Values that should be hidden.
12293 &quot;A String&quot;,
12294 ],
12295 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
12296 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12297 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12298 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12299 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12300 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12301 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12302 },
12303 },
12304 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
12305 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
12306 { # The value of the condition.
12307 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
12308 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
12309 },
12310 ],
12311 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
12312 },
12313 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
12314 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12315 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12316 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12317 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12318 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12319 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12320 },
12321 },
12322 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
12323 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12324 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12325 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12326 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12327 },
12328 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
12329 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12330 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12331 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12332 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12333 },
12334 },
12335 },
12336 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012337 &quot;candlestickChart&quot;: { # A candlestick chart. # A candlestick chart specification.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012338 &quot;domain&quot;: { # The domain of a CandlestickChart. # The domain data (horizontal axis) for the candlestick chart. String data will be treated as discrete labels, other data will be treated as continuous values.
12339 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
12340 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickDomain.
12341 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
12342 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12343 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12344 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12345 },
12346 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12347 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
12348 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
12349 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
12350 },
12351 },
12352 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12353 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12354 },
12355 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12356 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12357 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12358 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12359 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12360 &quot;sheetId&quot;: 42, # The sheet this range is on.
12361 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12362 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12363 },
12364 ],
12365 },
12366 },
12367 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012368 &quot;data&quot;: [ # The Candlestick chart data. Only one CandlestickData is supported.
12369 { # The Candlestick chart data, each containing the low, open, close, and high values for a series.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012370 &quot;openSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the open/initial value for each candle. This is the bottom of the candle body. If less than the close value the candle will be filled. Otherwise the candle will be hollow.
12371 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012372 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012373 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12374 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12375 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12376 },
12377 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012378 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012379 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012380 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012381 },
12382 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012383 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12384 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12385 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012386 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12387 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12388 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012389 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012390 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12391 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012392 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012393 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012394 },
12395 ],
12396 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012397 },
12398 },
12399 &quot;highSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the high/maximum value for each candle. This is the top of the candle&#x27;s center line.
12400 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012401 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012402 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12403 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12404 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12405 },
12406 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012407 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012408 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012409 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012410 },
12411 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012412 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12413 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12414 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012415 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12416 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12417 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012418 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012419 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12420 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012421 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012422 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012423 },
12424 ],
12425 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012426 },
12427 },
12428 &quot;lowSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the low/minimum value for each candle. This is the bottom of the candle&#x27;s center line.
12429 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012430 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012431 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12432 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12433 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12434 },
12435 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012436 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012437 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012438 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012439 },
12440 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012441 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12442 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12443 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012444 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12445 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12446 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012447 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012448 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12449 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012450 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012451 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012452 },
12453 ],
12454 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012455 },
12456 },
12457 &quot;closeSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the close/final value for each candle. This is the top of the candle body. If greater than the open value the candle will be filled. Otherwise the candle will be hollow.
12458 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012459 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012460 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12461 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12462 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12463 },
12464 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12465 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012466 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012467 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012468 },
12469 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012470 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12471 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12472 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012473 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12474 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12475 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12476 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012477 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12478 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012479 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012480 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12481 },
12482 ],
12483 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012484 },
12485 },
12486 },
12487 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012488 },
12489 &quot;basicChart&quot;: { # The specification for a basic chart. See BasicChartType for the list of charts this supports. # A basic chart specification, can be one of many kinds of charts. See BasicChartType for the list of all charts this supports.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012490 &quot;domains&quot;: [ # The domain of data this is charting. Only a single domain is supported.
12491 { # The domain of a chart. For example, if charting stock prices over time, this would be the date.
12492 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
12493 &quot;domain&quot;: { # The data included in a domain or series. # The data of the domain. For example, if charting stock prices over time, this is the data representing the dates.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012494 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012495 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12496 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12497 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12498 },
12499 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12500 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012501 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012502 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012503 },
12504 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012505 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12506 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12507 },
12508 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12509 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12510 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12511 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012512 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12513 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012514 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012515 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12516 },
12517 ],
12518 },
12519 },
12520 },
12521 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012522 &quot;compareMode&quot;: &quot;A String&quot;, # The behavior of tooltips and data highlighting when hovering on data and chart area.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012523 &quot;axis&quot;: [ # The axis on the chart.
12524 { # An axis of the chart. A chart may not have more than one axis per axis position.
12525 &quot;title&quot;: &quot;A String&quot;, # The title of this axis. If set, this overrides any title inferred from headers of the data.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012526 &quot;position&quot;: &quot;A String&quot;, # The position of this axis.
12527 &quot;titleTextPosition&quot;: { # Position settings for text. # The axis title text position.
12528 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
12529 },
12530 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the title. Only valid if the axis is not associated with the domain.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012531 &quot;bold&quot;: True or False, # True if the text is bold.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012532 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
12533 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012534 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12535 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012536 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12537 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012538 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012539 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012540 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012541 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012542 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12543 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012544 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12545 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012546 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012547 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012548 &quot;italic&quot;: True or False, # True if the text is italicized.
12549 &quot;underline&quot;: True or False, # True if the text is underlined.
12550 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
12551 &quot;fontSize&quot;: 42, # The size of the font.
12552 },
12553 &quot;viewWindowOptions&quot;: { # The options that define a &quot;view window&quot; for a chart (such as the visible values in an axis). # The view window options for this axis.
12554 &quot;viewWindowMax&quot;: 3.14, # The maximum numeric value to be shown in this view window. If unset, will automatically determine a maximum value that looks good for the data.
12555 &quot;viewWindowMin&quot;: 3.14, # The minimum numeric value to be shown in this view window. If unset, will automatically determine a minimum value that looks good for the data.
12556 &quot;viewWindowMode&quot;: &quot;A String&quot;, # The view window&#x27;s mode.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012557 },
12558 },
12559 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012560 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
12561 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type for charts that support vertical stacking. Applies to Area, Bar, Column, Combo, and Stepped Area charts.
12562 &quot;threeDimensional&quot;: True or False, # True to make the chart 3D. Applies to Bar and Column charts.
12563 &quot;interpolateNulls&quot;: True or False, # If some values in a series are missing, gaps may appear in the chart (e.g, segments of lines in a line chart will be missing). To eliminate these gaps set this to true. Applies to Line, Area, and Combo charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012564 &quot;series&quot;: [ # The data this chart is visualizing.
12565 { # A single series of data in a chart. For example, if charting stock prices over time, multiple series may exist, one for the &quot;Open Price&quot;, &quot;High Price&quot;, &quot;Low Price&quot; and &quot;Close Price&quot;.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012566 &quot;series&quot;: { # The data included in a domain or series. # The data being visualized in this chart series.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012567 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012568 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
12569 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
12570 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
12571 },
12572 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
12573 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012574 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012575 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012576 },
12577 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012578 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
12579 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12580 },
12581 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
12582 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
12583 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
12584 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012585 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12586 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012587 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012588 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12589 },
12590 ],
12591 },
12592 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012593 &quot;type&quot;: &quot;A String&quot;, # The type of this series. Valid only if the chartType is COMBO. Different types will change the way the series is visualized. Only LINE, AREA, and COLUMN are supported.
12594 &quot;targetAxis&quot;: &quot;A String&quot;, # The minor axis that will specify the range of values for this series. For example, if charting stocks over time, the &quot;Volume&quot; series may want to be pinned to the right with the prices pinned to the left, because the scale of trading volume is different than the scale of prices. It is an error to specify an axis that isn&#x27;t a valid minor axis for the chart&#x27;s type.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012595 &quot;colorStyle&quot;: { # A color value. # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used. If color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012596 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012597 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012598 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12599 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012600 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12601 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012602 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012603 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012604 &quot;lineStyle&quot;: { # Properties that describe the style of a line. # The line style of this series. Valid only if the chartType is AREA, LINE, or SCATTER. COMBO charts are also supported if the series chart type is AREA or LINE.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012605 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012606 &quot;width&quot;: 42, # The thickness of the line, in px.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012607 },
12608 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012609 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12610 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012611 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12612 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012613 },
12614 },
12615 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012616 &quot;chartType&quot;: &quot;A String&quot;, # The type of the chart.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012617 &quot;headerCount&quot;: 42, # The number of rows or columns in the data that are &quot;headers&quot;. If not set, Google Sheets will guess how many rows are headers based on the data. (Note that BasicChartAxis.title may override the axis title inferred from the header values.)
12618 &quot;lineSmoothing&quot;: True or False, # Gets whether all lines should be rendered smooth or straight by default. Applies to Line charts.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012619 },
12620 &quot;subtitleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The subtitle text format. Strikethrough and underline are not supported.
12621 &quot;bold&quot;: True or False, # True if the text is bold.
12622 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
12623 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
12624 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12625 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12626 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12627 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12628 },
12629 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
12630 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12631 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12632 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12633 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12634 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12635 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12636 },
12637 },
12638 &quot;italic&quot;: True or False, # True if the text is italicized.
12639 &quot;underline&quot;: True or False, # True if the text is underlined.
12640 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
12641 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012642 },
12643 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the entire chart. Not applicable to Org charts.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012644 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12645 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012646 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12647 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012648 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012649 },
12650 &quot;chartId&quot;: 42, # The ID of the chart.
12651 },
12652 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012653 &quot;addBanding&quot;: { # The result of adding a banded range. # A reply from adding a banded range.
12654 &quot;bandedRange&quot;: { # A banded (alternating colors) range in a sheet. # The banded range that was added.
12655 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range over which these properties are applied.
12656 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12657 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12658 &quot;sheetId&quot;: 42, # The sheet this range is on.
12659 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12660 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12661 },
12662 &quot;columnProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for column bands. These properties are applied on a column- by-column basis throughout all the columns in the range. At least one of row_properties or column_properties must be specified.
12663 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
12664 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12665 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12666 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12667 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012668 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012669 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
12670 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12671 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012672 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12673 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012674 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12675 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012676 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012677 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012678 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
12679 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12680 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012681 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12682 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012683 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12684 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012685 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012686 },
12687 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
12688 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12689 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12690 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12691 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12692 },
12693 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
12694 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12695 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12696 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12697 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12698 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12699 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012700 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012701 },
12702 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
12703 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12704 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12705 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12706 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12707 },
12708 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
12709 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12710 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12711 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12712 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12713 },
12714 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
12715 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12716 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12717 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12718 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12719 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12720 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12721 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012722 },
12723 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012724 &quot;rowProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for row bands. These properties are applied on a row-by-row basis throughout all the rows in the range. At least one of row_properties or column_properties must be specified.
12725 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
12726 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12727 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12728 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12729 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012730 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012731 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
12732 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12733 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012734 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12735 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012736 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12737 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012738 },
12739 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012740 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
12741 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12742 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12743 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12744 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12745 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12746 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12747 },
12748 },
12749 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
12750 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12751 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12752 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12753 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12754 },
12755 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
12756 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12757 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12758 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12759 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12760 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12761 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12762 },
12763 },
12764 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
12765 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12766 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12767 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12768 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12769 },
12770 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
12771 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12772 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12773 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12774 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12775 },
12776 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
12777 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12778 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12779 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12780 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12781 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12782 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12783 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012784 },
12785 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012786 &quot;bandedRangeId&quot;: 42, # The id of the banded range.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012787 },
12788 },
12789 &quot;addFilterView&quot;: { # The result of adding a filter view. # A reply from adding a filter view.
12790 &quot;filter&quot;: { # A filter view. # The newly added filter view.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012791 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
12792 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012793 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12794 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012795 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012796 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
12797 },
12798 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012799 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
12800 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
12801 { # A sort order associated with a specific column or row.
12802 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
12803 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12804 },
12805 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
12806 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
12807 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12808 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12809 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12810 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12811 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12812 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12813 },
12814 },
12815 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
12816 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12817 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12818 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12819 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12820 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12821 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12822 },
12823 },
12824 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
12825 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12826 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12827 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12828 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12829 },
12830 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
12831 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
12832 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12833 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12834 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12835 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12836 },
12837 },
12838 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012839 &quot;filterViewId&quot;: 42, # The ID of the filter view.
12840 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
12841 { # The filter criteria associated with a specific column.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012842 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
12843 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
12844 },
12845 &quot;columnIndex&quot;: 42, # The column index.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012846 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012847 &quot;hiddenValues&quot;: [ # Values that should be hidden.
12848 &quot;A String&quot;,
12849 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012850 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
12851 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12852 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12853 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12854 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12855 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12856 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12857 },
12858 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012859 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012860 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
12861 { # The value of the condition.
12862 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
12863 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
12864 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070012865 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012866 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070012867 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012868 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
12869 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12870 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12871 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12872 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12873 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12874 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12875 },
12876 },
12877 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012878 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12879 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012880 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12881 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012882 },
12883 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012884 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12885 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012886 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12887 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070012888 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070012889 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070012890 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012891 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012892 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
12893 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
12894 &quot;hiddenValues&quot;: [ # Values that should be hidden.
12895 &quot;A String&quot;,
12896 ],
12897 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
12898 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12899 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12900 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12901 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12902 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12903 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12904 },
12905 },
12906 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
12907 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
12908 { # The value of the condition.
12909 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
12910 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
12911 },
12912 ],
12913 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
12914 },
12915 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
12916 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
12917 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
12918 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12919 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12920 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12921 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12922 },
12923 },
12924 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
12925 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12926 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12927 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12928 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12929 },
12930 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
12931 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
12932 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
12933 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
12934 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
12935 },
12936 },
12937 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012938 },
12939 },
12940 &quot;createDeveloperMetadata&quot;: { # The response from creating developer metadata. # A reply from creating a developer metadata entry.
12941 &quot;developerMetadata&quot;: { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too. # The developer metadata that was created.
12942 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012943 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
12944 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012945 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
12946 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
12947 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012948 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012949 &quot;sheetId&quot;: 42, # The sheet this span is on.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012950 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012951 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
12952 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012953 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
12954 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012955 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012956 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
12957 },
12958 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012959 &quot;deleteDimensionGroup&quot;: { # The result of deleting a group. # A reply from deleting a dimension group.
12960 &quot;dimensionGroups&quot;: [ # All groups of a dimension after deleting a group from that dimension.
12961 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012962 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
12963 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
12964 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
12965 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012966 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012967 &quot;sheetId&quot;: 42, # The sheet this span is on.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012968 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012969 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012970 },
12971 ],
12972 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012973 &quot;updateDataSource&quot;: { # The response from updating data source. # A reply from updating a data source.
12974 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
12975 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
12976 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
12977 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
12978 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
12979 },
12980 &quot;dataSource&quot;: { # Information about an external data source in the spreadsheet. # The updated data source.
12981 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
12982 { # A column in a data source.
12983 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
12984 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012985 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012986 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080012987 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080012988 ],
12989 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
12990 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
12991 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
12992 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
12993 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
12994 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
12995 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
12996 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
12997 &quot;sheetId&quot;: 42, # The sheet this range is on.
12998 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
12999 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
13000 },
13001 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
13002 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
13003 },
13004 ],
13005 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
13006 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
13007 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
13008 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
13009 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
13010 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
13011 },
13012 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
13013 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
13014 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013015 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013016 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013017 },
13018 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013019 &quot;deleteConditionalFormatRule&quot;: { # The result of deleting a conditional format rule. # A reply from deleting a conditional format rule.
13020 &quot;rule&quot;: { # A rule describing a conditional format. # The rule that was deleted.
13021 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
13022 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
13023 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
13024 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13025 &quot;sheetId&quot;: 42, # The sheet this range is on.
13026 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
13027 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013028 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013029 ],
13030 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
13031 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
13032 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
13033 { # The value of the condition.
13034 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
13035 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
13036 },
13037 ],
13038 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013039 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013040 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
13041 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
13042 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
13043 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
13044 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
13045 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
13046 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13047 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13048 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13049 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13050 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13051 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13052 },
13053 },
13054 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
13055 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13056 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13057 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13058 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13059 },
13060 },
13061 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
13062 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
13063 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
13064 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
13065 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13066 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13067 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13068 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13069 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13070 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13071 },
13072 },
13073 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
13074 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13075 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13076 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13077 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13078 },
13079 },
13080 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
13081 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
13082 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
13083 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
13084 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13085 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13086 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13087 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13088 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13089 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13090 },
13091 },
13092 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
13093 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13094 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13095 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13096 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13097 },
13098 },
13099 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
13100 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
13101 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
13102 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
13103 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13104 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13105 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13106 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13107 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13108 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13109 },
13110 },
13111 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
13112 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13113 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13114 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13115 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13116 },
13117 },
13118 },
13119 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
13120 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13121 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13122 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13123 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13124 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13125 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13126 },
13127 },
13128 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
13129 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
13130 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
13131 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
13132 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
13133 },
13134 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
13135 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
13136 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
13137 &quot;bold&quot;: True or False, # True if the text is bold.
13138 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
13139 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
13140 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13141 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13142 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13143 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13144 },
13145 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
13146 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13147 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13148 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13149 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13150 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13151 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13152 },
13153 },
13154 &quot;italic&quot;: True or False, # True if the text is italicized.
13155 &quot;underline&quot;: True or False, # True if the text is underlined.
13156 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
13157 &quot;fontSize&quot;: 42, # The size of the font.
13158 },
13159 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
13160 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
13161 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
13162 },
13163 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
13164 &quot;bottom&quot;: 42, # The bottom padding of the cell.
13165 &quot;top&quot;: 42, # The top padding of the cell.
13166 &quot;right&quot;: 42, # The right padding of the cell.
13167 &quot;left&quot;: 42, # The left padding of the cell.
13168 },
13169 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013170 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13171 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013172 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13173 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013174 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013175 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013176 },
13177 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013178 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
13179 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
13180 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
13181 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13182 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13183 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13184 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13185 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13186 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13187 },
13188 },
13189 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013190 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13191 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013192 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13193 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013194 },
13195 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
13196 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
13197 },
13198 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
13199 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
13200 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13201 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13202 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13203 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13204 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13205 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13206 },
13207 },
13208 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013209 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13210 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013211 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13212 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013213 },
13214 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
13215 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
13216 },
13217 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
13218 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
13219 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13220 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13221 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13222 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13223 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13224 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13225 },
13226 },
13227 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013228 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13229 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013230 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13231 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013232 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013233 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
13234 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013235 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013236 },
13237 },
13238 },
13239 &quot;deleteDuplicates&quot;: { # The result of removing duplicates in a range. # A reply from removing rows containing duplicate values.
13240 &quot;duplicatesRemovedCount&quot;: 42, # The number of duplicate rows removed.
13241 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013242 &quot;addDataSource&quot;: { # The result of adding a data source. # A reply from adding a data source.
13243 &quot;dataSource&quot;: { # Information about an external data source in the spreadsheet. # The data source that was created.
13244 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
13245 { # A column in a data source.
13246 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
13247 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
13248 },
13249 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
13250 },
13251 ],
13252 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
13253 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
13254 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
13255 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
13256 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
13257 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
13258 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
13259 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13260 &quot;sheetId&quot;: 42, # The sheet this range is on.
13261 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
13262 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
13263 },
13264 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
13265 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
13266 },
13267 ],
13268 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
13269 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
13270 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
13271 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
13272 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
13273 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
13274 },
13275 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
13276 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
13277 },
13278 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013279 },
13280 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013281 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
13282 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
13283 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
13284 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
13285 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
13286 },
13287 },
13288 &quot;updateDeveloperMetadata&quot;: { # The response from updating developer metadata. # A reply from updating a developer metadata entry.
13289 &quot;developerMetadata&quot;: [ # The updated developer metadata.
13290 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
13291 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
13292 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
13293 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
13294 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
13295 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
13296 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
13297 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
13298 &quot;sheetId&quot;: 42, # The sheet this span is on.
13299 },
13300 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
13301 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
13302 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
13303 },
13304 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
13305 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
13306 },
13307 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013308 },
13309 &quot;addProtectedRange&quot;: { # The result of adding a new protected range. # A reply from adding a protected range.
13310 &quot;protectedRange&quot;: { # A protected range. # The newly added protected range.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013311 &quot;requestingUserCanEdit&quot;: True or False, # True if the user who requested this protected range can edit the protected area. This field is read-only.
13312 &quot;protectedRangeId&quot;: 42, # The ID of the protected range. This field is read-only.
13313 &quot;description&quot;: &quot;A String&quot;, # The description of this protected range.
13314 &quot;warningOnly&quot;: True or False, # True if this protected range will show a warning when editing. Warning-based protection means that every user can edit data in the protected range, except editing will prompt a warning asking the user to confirm the edit. When writing: if this field is true, then editors is ignored. Additionally, if this field is changed from true to false and the `editors` field is not set (nor included in the field mask), then the editors will be set to all the editors in the document.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013315 &quot;editors&quot;: { # The editors of a protected range. # The users and groups with edit access to the protected range. This field is only visible to users with edit access to the protected range and the document. Editors are not supported with warning_only protection.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013316 &quot;domainUsersCanEdit&quot;: True or False, # True if anyone in the document&#x27;s domain has edit access to the protected range. Domain protection is only supported on documents within a domain.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013317 &quot;groups&quot;: [ # The email addresses of groups with edit access to the protected range.
13318 &quot;A String&quot;,
13319 ],
13320 &quot;users&quot;: [ # The email addresses of users with edit access to the protected range.
13321 &quot;A String&quot;,
13322 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013323 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013324 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this protected range is backed by, if any. When writing, only one of range or named_range_id may be set.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013325 &quot;unprotectedRanges&quot;: [ # The list of unprotected ranges within a protected sheet. Unprotected ranges are only supported on protected sheets.
13326 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
13327 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013328 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13329 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013330 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013331 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
13332 },
13333 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013334 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range that is being protected. The range may be fully unbounded, in which case this is considered a protected sheet. When writing, only one of range or named_range_id may be set.
13335 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
13336 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13337 &quot;sheetId&quot;: 42, # The sheet this range is on.
13338 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
13339 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
13340 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013341 },
13342 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013343 &quot;trimWhitespace&quot;: { # The result of trimming whitespace in cells. # A reply from trimming whitespace.
13344 &quot;cellsChangedCount&quot;: 42, # The number of cells that were trimmed of whitespace.
13345 },
13346 &quot;addDimensionGroup&quot;: { # The result of adding a group. # A reply from adding a dimension group.
13347 &quot;dimensionGroups&quot;: [ # All groups of a dimension after adding a group to that dimension.
13348 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
13349 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
13350 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
13351 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
13352 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
13353 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
13354 &quot;sheetId&quot;: 42, # The sheet this span is on.
13355 },
13356 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
13357 },
13358 ],
13359 },
13360 &quot;duplicateSheet&quot;: { # The result of duplicating a sheet. # A reply from duplicating a sheet.
13361 &quot;properties&quot;: { # Properties of a sheet. # The properties of the duplicate sheet.
13362 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
13363 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
13364 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
13365 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
13366 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
13367 &quot;rowCount&quot;: 42, # The number of rows in the grid.
13368 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
13369 &quot;columnCount&quot;: 42, # The number of columns in the grid.
13370 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013371 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013372 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070013373 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070013374 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13375 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013376 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13377 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070013378 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070013379 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013380 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013381 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
13382 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013383 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
13384 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13385 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13386 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13387 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13388 },
13389 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
13390 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013391 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013392 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013393 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
13394 { # A column in a data source.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013395 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
13396 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
13397 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013398 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013399 },
13400 ],
13401 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013402 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013403 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013404 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013405 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013406 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013407 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013408 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013409 },
13410 },
13411 &quot;findReplace&quot;: { # The result of the find/replace. # A reply from doing a find/replace.
13412 &quot;formulasChanged&quot;: 42, # The number of formula cells changed.
13413 &quot;valuesChanged&quot;: 42, # The number of non-formula cells changed.
13414 &quot;sheetsChanged&quot;: 42, # The number of sheets changed.
13415 &quot;rowsChanged&quot;: 42, # The number of rows changed.
13416 &quot;occurrencesChanged&quot;: 42, # The number of occurrences (possibly multiple within a cell) changed. For example, if replacing `&quot;e&quot;` with `&quot;o&quot;` in `&quot;Google Sheets&quot;`, this would be `&quot;3&quot;` because `&quot;Google Sheets&quot;` -&gt; `&quot;Googlo Shoots&quot;`.
13417 },
13418 &quot;updateEmbeddedObjectPosition&quot;: { # The result of updating an embedded object&#x27;s position. # A reply from updating an embedded object&#x27;s position.
13419 &quot;position&quot;: { # The position of an embedded object such as a chart. # The new position of the embedded object.
13420 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
13421 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
13422 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
13423 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
13424 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
13425 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
13426 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
13427 },
13428 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
13429 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070013430 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013431 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
13432 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070013433 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070013434 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013435 &quot;addSlicer&quot;: { # The result of adding a slicer to a spreadsheet. # A reply from adding a slicer.
13436 &quot;slicer&quot;: { # A slicer in a sheet. # The newly added slicer.
13437 &quot;slicerId&quot;: 42, # The ID of the slicer.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013438 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the slicer. Note that slicer can be positioned only on existing sheet. Also, width and height of slicer can be automatically adjusted to keep it within permitted limits.
13439 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
13440 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
13441 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
13442 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
13443 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
13444 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
13445 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
13446 },
13447 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
13448 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
13449 },
13450 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
13451 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
13452 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013453 &quot;spec&quot;: { # The specifications of a slicer. # The specification of the slicer.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013454 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The filtering criteria of the slicer.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013455 &quot;hiddenValues&quot;: [ # Values that should be hidden.
13456 &quot;A String&quot;,
13457 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013458 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
13459 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13460 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13461 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13462 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13463 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13464 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13465 },
13466 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013467 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013468 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
13469 { # The value of the condition.
13470 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
13471 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
13472 },
13473 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013474 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
13475 },
13476 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
13477 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13478 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13479 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13480 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13481 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13482 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13483 },
13484 },
13485 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
13486 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13487 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13488 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13489 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13490 },
13491 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
13492 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13493 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13494 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13495 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013496 },
13497 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013498 &quot;title&quot;: &quot;A String&quot;, # The title of the slicer.
13499 &quot;dataRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The data range of the slicer.
13500 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
13501 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13502 &quot;sheetId&quot;: 42, # The sheet this range is on.
13503 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
13504 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013505 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013506 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format of title in the slicer.
13507 &quot;bold&quot;: True or False, # True if the text is bold.
13508 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
13509 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
13510 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13511 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13512 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13513 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13514 },
13515 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
13516 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13517 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13518 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13519 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13520 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13521 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13522 },
13523 },
13524 &quot;italic&quot;: True or False, # True if the text is italicized.
13525 &quot;underline&quot;: True or False, # True if the text is underlined.
13526 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
13527 &quot;fontSize&quot;: 42, # The size of the font.
13528 },
13529 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the slicer.
13530 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13531 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13532 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13533 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13534 },
13535 &quot;columnIndex&quot;: 42, # The column index in the data table on which the filter is applied to.
13536 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the slicer. If background_color is also set, this field takes precedence.
13537 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13538 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13539 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13540 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13541 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13542 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13543 },
13544 },
13545 &quot;applyToPivotTables&quot;: True or False, # True if the filter should apply to pivot tables. If not set, default to `True`.
13546 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of title in the slicer. If unspecified, defaults to `LEFT`
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013547 },
13548 },
13549 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013550 &quot;addNamedRange&quot;: { # The result of adding a named range. # A reply from adding a named range.
13551 &quot;namedRange&quot;: { # A named range. # The named range to add.
13552 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range.
13553 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this represents.
13554 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
13555 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13556 &quot;sheetId&quot;: 42, # The sheet this range is on.
13557 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
13558 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070013559 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013560 &quot;name&quot;: &quot;A String&quot;, # The name of the named range.
13561 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013562 },
13563 &quot;duplicateFilterView&quot;: { # The result of a filter view being duplicated. # A reply from duplicating a filter view.
13564 &quot;filter&quot;: { # A filter view. # The newly created filter.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013565 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
13566 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013567 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13568 &quot;sheetId&quot;: 42, # The sheet this range is on.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013569 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013570 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
13571 },
13572 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013573 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
13574 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
13575 { # A sort order associated with a specific column or row.
13576 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
13577 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
13578 },
13579 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
13580 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
13581 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13582 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13583 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13584 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13585 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13586 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13587 },
13588 },
13589 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
13590 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13591 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13592 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13593 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13594 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13595 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13596 },
13597 },
13598 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
13599 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13600 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13601 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13602 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13603 },
13604 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
13605 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
13606 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13607 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13608 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13609 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13610 },
13611 },
13612 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013613 &quot;filterViewId&quot;: 42, # The ID of the filter view.
13614 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
13615 { # The filter criteria associated with a specific column.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013616 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
13617 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
13618 },
13619 &quot;columnIndex&quot;: 42, # The column index.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013620 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013621 &quot;hiddenValues&quot;: [ # Values that should be hidden.
13622 &quot;A String&quot;,
13623 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013624 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
13625 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13626 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13627 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13628 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13629 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13630 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13631 },
13632 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013633 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013634 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
13635 { # The value of the condition.
13636 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
13637 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
13638 },
13639 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013640 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013641 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013642 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
13643 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13644 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13645 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13646 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13647 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13648 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13649 },
13650 },
13651 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013652 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13653 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013654 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13655 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013656 },
13657 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013658 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13659 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013660 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13661 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013662 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013663 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013664 },
13665 ],
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013666 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
13667 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
13668 &quot;hiddenValues&quot;: [ # Values that should be hidden.
13669 &quot;A String&quot;,
13670 ],
13671 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
13672 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13673 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13674 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13675 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13676 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13677 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13678 },
13679 },
13680 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
13681 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
13682 { # The value of the condition.
13683 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
13684 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
13685 },
13686 ],
13687 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
13688 },
13689 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
13690 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13691 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13692 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13693 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13694 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13695 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13696 },
13697 },
13698 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
13699 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13700 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13701 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13702 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13703 },
13704 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
13705 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13706 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13707 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13708 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13709 },
13710 },
13711 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013712 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070013713 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013714 &quot;addSheet&quot;: { # The result of adding a sheet. # A reply from adding a sheet.
13715 &quot;properties&quot;: { # Properties of a sheet. # The properties of the newly added sheet.
13716 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
13717 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
13718 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
13719 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
13720 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
13721 &quot;rowCount&quot;: 42, # The number of rows in the grid.
13722 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
13723 &quot;columnCount&quot;: 42, # The number of columns in the grid.
13724 },
13725 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
13726 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13727 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13728 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13729 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13730 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13731 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13732 },
13733 },
13734 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
13735 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
13736 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
13737 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
13738 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13739 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13740 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13741 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13742 },
13743 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
13744 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
13745 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
13746 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
13747 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
13748 { # A column in a data source.
13749 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
13750 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
13751 },
13752 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
13753 },
13754 ],
13755 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
13756 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
13757 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
13758 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
13759 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
13760 },
13761 },
13762 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
13763 },
13764 },
13765 &quot;deleteDeveloperMetadata&quot;: { # The response from deleting developer metadata. # A reply from deleting a developer metadata entry.
13766 &quot;deletedDeveloperMetadata&quot;: [ # The metadata that was deleted.
13767 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
13768 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
13769 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
13770 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
13771 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
13772 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
13773 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
13774 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
13775 &quot;sheetId&quot;: 42, # The sheet this span is on.
13776 },
13777 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
13778 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
13779 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
13780 },
13781 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
13782 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
13783 },
13784 ],
13785 },
13786 &quot;refreshDataSource&quot;: { # The response from refreshing one or multiple data source objects. # A reply from refreshing data source objects.
13787 &quot;statuses&quot;: [ # All the refresh status for the data source object references specified in the request. If is_all is specified, the field contains only those in failure status.
13788 { # The execution status of refreshing one data source object.
13789 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
13790 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
13791 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
13792 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
13793 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
13794 },
13795 &quot;reference&quot;: { # Reference to a data source object. # Reference to a data source object being refreshed.
13796 &quot;dataSourceTableAnchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # References to a DataSourceTable anchored at the cell.
13797 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
13798 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
13799 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
13800 },
13801 &quot;chartId&quot;: 42, # References to a data source chart.
13802 &quot;dataSourcePivotTableAnchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # References to a data source PivotTable anchored at the cell.
13803 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
13804 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
13805 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
13806 },
13807 &quot;sheetId&quot;: &quot;A String&quot;, # References to a DATA_SOURCE sheet.
13808 &quot;dataSourceFormulaCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # References to a cell containing DataSourceFormula.
13809 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
13810 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
13811 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
13812 },
13813 },
13814 },
13815 ],
13816 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070013817 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013818 ],
Bu Sun Kim65020912020-05-20 12:08:20 -070013819 }</pre>
13820</div>
13821
13822<div class="method">
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070013823 <code class="details" id="close">close()</code>
13824 <pre>Close httplib2 connections.</pre>
13825</div>
13826
13827<div class="method">
Bu Sun Kim65020912020-05-20 12:08:20 -070013828 <code class="details" id="create">create(body=None, x__xgafv=None)</code>
13829 <pre>Creates a spreadsheet, returning the newly created spreadsheet.
13830
13831Args:
13832 body: object, The request body.
13833 The object takes the form of:
13834
13835{ # Resource that represents a spreadsheet.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013836 &quot;spreadsheetId&quot;: &quot;A String&quot;, # The ID of the spreadsheet. This field is read-only.
13837 &quot;dataSources&quot;: [ # A list of external data sources connected with the spreadsheet.
13838 { # Information about an external data source in the spreadsheet.
13839 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
13840 { # A column in a data source.
13841 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
13842 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
13843 },
13844 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
13845 },
13846 ],
13847 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
13848 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
13849 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
13850 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
13851 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
13852 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
13853 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
13854 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13855 &quot;sheetId&quot;: 42, # The sheet this range is on.
13856 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
13857 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
13858 },
13859 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
13860 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
13861 },
13862 ],
13863 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
13864 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
13865 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
13866 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
13867 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
13868 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
13869 },
13870 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
13871 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
13872 },
13873 },
13874 },
13875 },
13876 ],
13877 &quot;developerMetadata&quot;: [ # The developer metadata associated with a spreadsheet.
13878 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
13879 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
13880 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
13881 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
13882 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
13883 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
13884 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
13885 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
13886 &quot;sheetId&quot;: 42, # The sheet this span is on.
13887 },
13888 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
13889 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
13890 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
13891 },
13892 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
13893 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
13894 },
13895 ],
13896 &quot;namedRanges&quot;: [ # The named ranges defined in a spreadsheet.
13897 { # A named range.
13898 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range.
13899 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this represents.
13900 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
13901 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13902 &quot;sheetId&quot;: 42, # The sheet this range is on.
13903 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
13904 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
13905 },
13906 &quot;name&quot;: &quot;A String&quot;, # The name of the named range.
13907 },
13908 ],
13909 &quot;spreadsheetUrl&quot;: &quot;A String&quot;, # The url of the spreadsheet. This field is read-only.
13910 &quot;sheets&quot;: [ # The sheets that are part of a spreadsheet.
13911 { # A sheet in a spreadsheet.
13912 &quot;rowGroups&quot;: [ # All row groups on this sheet, ordered by increasing range start index, then by group depth.
13913 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
13914 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
13915 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
13916 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
13917 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
13918 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
13919 &quot;sheetId&quot;: 42, # The sheet this span is on.
13920 },
13921 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
13922 },
13923 ],
13924 &quot;bandedRanges&quot;: [ # The banded (alternating colors) ranges on this sheet.
13925 { # A banded (alternating colors) range in a sheet.
13926 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range over which these properties are applied.
13927 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
13928 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
13929 &quot;sheetId&quot;: 42, # The sheet this range is on.
13930 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
13931 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
13932 },
13933 &quot;columnProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for column bands. These properties are applied on a column- by-column basis throughout all the columns in the range. At least one of row_properties or column_properties must be specified.
13934 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013935 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13936 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013937 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13938 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080013939 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013940 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
13941 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13942 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13943 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13944 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13945 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13946 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13947 },
13948 },
13949 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
13950 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13951 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13952 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13953 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13954 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13955 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13956 },
13957 },
13958 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
13959 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13960 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13961 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13962 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13963 },
13964 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
13965 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13966 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13967 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13968 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13969 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13970 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13971 },
13972 },
13973 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
13974 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13975 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13976 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13977 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13978 },
13979 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
13980 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13981 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13982 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13983 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13984 },
13985 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
13986 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
13987 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
13988 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13989 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13990 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
13991 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
13992 },
13993 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070013994 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080013995 &quot;rowProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for row bands. These properties are applied on a row-by-row basis throughout all the rows in the range. At least one of row_properties or column_properties must be specified.
13996 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
13997 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
13998 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
13999 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14000 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14001 },
14002 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
14003 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14004 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14005 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14006 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14007 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14008 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14009 },
14010 },
14011 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
14012 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14013 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14014 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14015 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14016 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14017 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14018 },
14019 },
14020 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
14021 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14022 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14023 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14024 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14025 },
14026 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
14027 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14028 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14029 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14030 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14031 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14032 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14033 },
14034 },
14035 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
14036 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14037 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14038 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14039 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14040 },
14041 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
14042 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14043 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14044 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14045 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14046 },
14047 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
14048 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14049 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14050 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14051 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14052 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14053 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14054 },
14055 },
14056 },
14057 &quot;bandedRangeId&quot;: 42, # The id of the banded range.
14058 },
14059 ],
14060 &quot;conditionalFormats&quot;: [ # The conditional format rules in this sheet.
14061 { # A rule describing a conditional format.
14062 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
14063 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
14064 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
14065 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
14066 &quot;sheetId&quot;: 42, # The sheet this range is on.
14067 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
14068 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
14069 },
14070 ],
14071 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
14072 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
14073 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
14074 { # The value of the condition.
14075 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
14076 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
14077 },
14078 ],
14079 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
14080 },
14081 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
14082 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
14083 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
14084 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14085 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14086 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14087 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14088 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14089 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14090 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14091 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14092 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14093 },
14094 },
14095 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14096 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14097 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14098 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14099 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14100 },
14101 },
14102 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
14103 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14104 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14105 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14106 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14107 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14108 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14109 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14110 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14111 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14112 },
14113 },
14114 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14115 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14116 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14117 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14118 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14119 },
14120 },
14121 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
14122 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14123 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14124 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14125 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14126 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14127 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14128 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14129 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14130 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14131 },
14132 },
14133 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14134 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14135 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14136 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14137 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14138 },
14139 },
14140 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
14141 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14142 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14143 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14144 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14145 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14146 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14147 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14148 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14149 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14150 },
14151 },
14152 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14153 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14154 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14155 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14156 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14157 },
14158 },
14159 },
14160 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
14161 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14162 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14163 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14164 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14165 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14166 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14167 },
14168 },
14169 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
14170 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
14171 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
14172 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
14173 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
14174 },
14175 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
14176 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
14177 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
14178 &quot;bold&quot;: True or False, # True if the text is bold.
14179 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
14180 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
14181 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14182 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14183 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14184 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14185 },
14186 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
14187 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14188 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14189 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14190 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14191 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14192 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14193 },
14194 },
14195 &quot;italic&quot;: True or False, # True if the text is italicized.
14196 &quot;underline&quot;: True or False, # True if the text is underlined.
14197 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
14198 &quot;fontSize&quot;: 42, # The size of the font.
14199 },
14200 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
14201 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
14202 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
14203 },
14204 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
14205 &quot;bottom&quot;: 42, # The bottom padding of the cell.
14206 &quot;top&quot;: 42, # The top padding of the cell.
14207 &quot;right&quot;: 42, # The right padding of the cell.
14208 &quot;left&quot;: 42, # The left padding of the cell.
14209 },
14210 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
14211 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14212 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14213 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14214 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14215 },
14216 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
14217 },
14218 },
14219 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
14220 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
14221 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
14222 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14223 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14224 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14225 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14226 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14227 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14228 },
14229 },
14230 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
14231 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14232 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14233 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14234 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14235 },
14236 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
14237 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
14238 },
14239 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
14240 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
14241 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14242 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14243 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14244 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14245 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14246 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14247 },
14248 },
14249 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
14250 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14251 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14252 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14253 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14254 },
14255 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
14256 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
14257 },
14258 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
14259 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
14260 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14261 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14262 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14263 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14264 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14265 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14266 },
14267 },
14268 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
14269 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14270 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14271 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14272 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14273 },
14274 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
14275 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
14276 },
14277 },
14278 },
14279 ],
14280 &quot;data&quot;: [ # Data in the grid, if this is a grid sheet. The number of GridData objects returned is dependent on the number of ranges requested on this sheet. For example, if this is representing `Sheet1`, and the spreadsheet was requested with ranges `Sheet1!A1:C10` and `Sheet1!D15:E20`, then the first GridData will have a startRow/startColumn of `0`, while the second one will have `startRow 14` (zero-based row 15), and `startColumn 3` (zero-based column D). For a DATA_SOURCE sheet, you can not request a specific range, the GridData contains all the values.
14281 { # Data in the grid, as well as metadata about the dimensions.
14282 &quot;columnMetadata&quot;: [ # Metadata about the requested columns in the grid, starting with the column in start_column.
14283 { # Properties about a dimension.
14284 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
14285 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
14286 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
14287 },
14288 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
14289 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
14290 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
14291 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
14292 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
14293 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
14294 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
14295 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
14296 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
14297 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
14298 &quot;sheetId&quot;: 42, # The sheet this span is on.
14299 },
14300 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
14301 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
14302 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
14303 },
14304 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
14305 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
14306 },
14307 ],
14308 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
14309 },
14310 ],
14311 &quot;startRow&quot;: 42, # The first row this GridData refers to, zero-based.
14312 &quot;rowData&quot;: [ # The data in the grid, one entry per row, starting with the row in startRow. The values in RowData will correspond to columns starting at start_column.
14313 { # Data about each cell in a row.
14314 &quot;values&quot;: [ # The values in the row, one per column.
14315 { # Data about a specific cell.
14316 &quot;effectiveValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The effective value of the cell. For cells with formulas, this is the calculated value. For cells with literals, this is the same as the user_entered_value. This field is read-only.
14317 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14318 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14319 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14320 },
14321 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14322 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14323 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14324 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14325 },
14326 &quot;formattedValue&quot;: &quot;A String&quot;, # The formatted value of the cell. This is the value as it&#x27;s shown to the user. This field is read-only.
14327 &quot;userEnteredFormat&quot;: { # The format of a cell. # The format the user entered for the cell. When writing, the new format will be merged with the existing format.
14328 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
14329 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
14330 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14331 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14332 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14333 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14334 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14335 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14336 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14337 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14338 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14339 },
14340 },
14341 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14342 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14343 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14344 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14345 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14346 },
14347 },
14348 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
14349 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14350 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14351 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14352 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14353 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14354 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14355 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14356 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14357 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14358 },
14359 },
14360 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14361 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14362 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14363 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14364 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14365 },
14366 },
14367 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
14368 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14369 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14370 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14371 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14372 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14373 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14374 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14375 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14376 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14377 },
14378 },
14379 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14380 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14381 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14382 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14383 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14384 },
14385 },
14386 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
14387 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14388 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14389 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14390 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14391 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14392 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14393 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14394 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14395 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14396 },
14397 },
14398 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14399 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14400 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14401 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14402 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14403 },
14404 },
14405 },
14406 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
14407 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14408 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14409 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14410 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14411 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14412 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14413 },
14414 },
14415 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
14416 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
14417 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
14418 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
14419 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
14420 },
14421 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
14422 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
14423 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
14424 &quot;bold&quot;: True or False, # True if the text is bold.
14425 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
14426 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
14427 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14428 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14429 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14430 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14431 },
14432 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
14433 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14434 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14435 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14436 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14437 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14438 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14439 },
14440 },
14441 &quot;italic&quot;: True or False, # True if the text is italicized.
14442 &quot;underline&quot;: True or False, # True if the text is underlined.
14443 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
14444 &quot;fontSize&quot;: 42, # The size of the font.
14445 },
14446 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
14447 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
14448 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
14449 },
14450 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
14451 &quot;bottom&quot;: 42, # The bottom padding of the cell.
14452 &quot;top&quot;: 42, # The top padding of the cell.
14453 &quot;right&quot;: 42, # The right padding of the cell.
14454 &quot;left&quot;: 42, # The left padding of the cell.
14455 },
14456 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
14457 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14458 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14459 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14460 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14461 },
14462 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
14463 },
14464 &quot;textFormatRuns&quot;: [ # Runs of rich text applied to subsections of the cell. Runs are only valid on user entered strings, not formulas, bools, or numbers. Properties of a run start at a specific index in the text and continue until the next run. Runs will inherit the properties of the cell unless explicitly changed. When writing, the new runs will overwrite any prior runs. When writing a new user_entered_value, previous runs are erased.
14465 { # A run of a text format. The format of this run continues until the start index of the next run. When updating, all fields must be set.
14466 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of this run. Absent values inherit the cell&#x27;s format.
14467 &quot;bold&quot;: True or False, # True if the text is bold.
14468 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
14469 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
14470 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14471 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14472 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14473 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14474 },
14475 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
14476 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14477 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14478 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14479 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14480 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14481 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14482 },
14483 },
14484 &quot;italic&quot;: True or False, # True if the text is italicized.
14485 &quot;underline&quot;: True or False, # True if the text is underlined.
14486 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
14487 &quot;fontSize&quot;: 42, # The size of the font.
14488 },
14489 &quot;startIndex&quot;: 42, # The character index where this run starts.
14490 },
14491 ],
14492 &quot;hyperlink&quot;: &quot;A String&quot;, # A hyperlink this cell points to, if any. If the cell contains multiple hyperlinks, this field will be empty. This field is read-only. To set it, use a `=HYPERLINK` formula in the userEnteredValue.formulaValue field.
14493 &quot;dataSourceTable&quot;: { # A data source table, which allows the user to import a static table of data from the DataSource into Sheets. This is also known as &quot;Extract&quot; in the Sheets editor. # A data source table anchored at this cell. The size of data source table itself is computed dynamically based on its configuration. Only the first cell of the data source table contains the data source table definition. The other cells will contain the display values of the data source table result in their effective_value fields.
14494 &quot;columns&quot;: [ # Columns selected for the data source table. The column_selection_type must be SELECTED.
14495 { # An unique identifier that references a data source column.
14496 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
14497 },
14498 ],
14499 &quot;sortSpecs&quot;: [ # Sort specifications in the data source table. The result of the data source table is sorted based on the sort specifications in order.
14500 { # A sort order associated with a specific column or row.
14501 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
14502 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
14503 },
14504 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
14505 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
14506 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14507 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14508 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14509 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14510 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14511 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14512 },
14513 },
14514 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
14515 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14516 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14517 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14518 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14519 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14520 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14521 },
14522 },
14523 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
14524 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14525 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14526 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14527 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14528 },
14529 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
14530 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
14531 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14532 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14533 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14534 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14535 },
14536 },
14537 ],
14538 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the data source table is associated with.
14539 &quot;columnSelectionType&quot;: &quot;A String&quot;, # The type to select columns for the data source table. Defaults to SELECTED.
14540 &quot;rowLimit&quot;: 42, # The limit of rows to return. If not set, a default limit is applied. Please refer to the Sheets editor for the default and max limit.
14541 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
14542 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
14543 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
14544 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
14545 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
14546 },
14547 &quot;filterSpecs&quot;: [ # Filter specifications in the data source table.
14548 { # The filter criteria associated with a specific column.
14549 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
14550 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
14551 },
14552 &quot;columnIndex&quot;: 42, # The column index.
14553 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
14554 &quot;hiddenValues&quot;: [ # Values that should be hidden.
14555 &quot;A String&quot;,
14556 ],
14557 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
14558 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14559 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14560 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14561 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14562 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14563 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14564 },
14565 },
14566 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
14567 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
14568 { # The value of the condition.
14569 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
14570 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
14571 },
14572 ],
14573 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
14574 },
14575 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
14576 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14577 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14578 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14579 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14580 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14581 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14582 },
14583 },
14584 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
14585 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14586 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14587 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14588 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14589 },
14590 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
14591 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14592 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14593 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14594 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14595 },
14596 },
14597 },
14598 ],
14599 },
14600 &quot;dataSourceFormula&quot;: { # A data source formula. # Output only. Information about a data source formula on the cell. The field is set if user_entered_value is a formula referencing some DATA_SOURCE sheet, e.g `=SUM(DataSheet!Column)`.
14601 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
14602 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
14603 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
14604 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
14605 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
14606 },
14607 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the formula is associated with.
14608 },
14609 &quot;userEnteredValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The value the user entered in the cell. e.g, `1234`, `&#x27;Hello&#x27;`, or `=NOW()` Note: Dates, Times and DateTimes are represented as doubles in serial number format.
14610 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14611 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14612 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14613 },
14614 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14615 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14616 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14617 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14618 },
14619 &quot;note&quot;: &quot;A String&quot;, # Any note on the cell.
14620 &quot;dataValidation&quot;: { # A data validation rule. # A data validation rule on the cell, if any. When writing, the new data validation rule will overwrite any prior rule.
14621 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
14622 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
14623 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
14624 { # The value of the condition.
14625 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
14626 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
14627 },
14628 ],
14629 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
14630 },
14631 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
14632 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
14633 },
14634 &quot;effectiveFormat&quot;: { # The format of a cell. # The effective format being used by the cell. This includes the results of applying any conditional formatting and, if the cell contains a formula, the computed number format. If the effective format is the default format, effective format will not be written. This field is read-only.
14635 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
14636 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
14637 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14638 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14639 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14640 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14641 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14642 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14643 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14644 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14645 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14646 },
14647 },
14648 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14649 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14650 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14651 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14652 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14653 },
14654 },
14655 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
14656 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14657 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14658 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14659 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14660 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14661 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14662 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14663 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14664 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14665 },
14666 },
14667 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14668 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14669 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14670 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14671 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14672 },
14673 },
14674 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
14675 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14676 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14677 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14678 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14679 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14680 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14681 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14682 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14683 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14684 },
14685 },
14686 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14687 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14688 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14689 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14690 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14691 },
14692 },
14693 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
14694 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
14695 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
14696 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
14697 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14698 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14699 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14700 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14701 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14702 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14703 },
14704 },
14705 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
14706 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14707 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14708 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14709 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14710 },
14711 },
14712 },
14713 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
14714 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14715 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14716 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14717 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14718 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14719 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14720 },
14721 },
14722 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
14723 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
14724 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
14725 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
14726 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
14727 },
14728 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
14729 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
14730 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
14731 &quot;bold&quot;: True or False, # True if the text is bold.
14732 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
14733 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
14734 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14735 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14736 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14737 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14738 },
14739 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
14740 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
14741 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
14742 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14743 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14744 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14745 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14746 },
14747 },
14748 &quot;italic&quot;: True or False, # True if the text is italicized.
14749 &quot;underline&quot;: True or False, # True if the text is underlined.
14750 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
14751 &quot;fontSize&quot;: 42, # The size of the font.
14752 },
14753 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
14754 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
14755 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
14756 },
14757 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
14758 &quot;bottom&quot;: 42, # The bottom padding of the cell.
14759 &quot;top&quot;: 42, # The top padding of the cell.
14760 &quot;right&quot;: 42, # The right padding of the cell.
14761 &quot;left&quot;: 42, # The left padding of the cell.
14762 },
14763 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
14764 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
14765 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
14766 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
14767 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
14768 },
14769 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
14770 },
14771 &quot;pivotTable&quot;: { # A pivot table. # A pivot table anchored at this cell. The size of pivot table itself is computed dynamically based on its data, grouping, filters, values, etc. Only the top-left cell of the pivot table contains the pivot table definition. The other cells will contain the calculated values of the results of the pivot in their effective_value fields.
14772 &quot;criteria&quot;: { # An optional mapping of filters per source column offset. The filters are applied before aggregating data into the pivot table. The map&#x27;s key is the column offset of the source range that you want to filter, and the value is the criteria for that column. For example, if the source was `C10:E15`, a key of `0` will have the filter for column `C`, whereas the key `1` is for column `D`. This field is deprecated in favor of filter_specs.
14773 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a pivot table.
14774 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
14775 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
14776 { # The value of the condition.
14777 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
14778 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
14779 },
14780 ],
14781 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
14782 },
14783 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
14784 &quot;A String&quot;,
14785 ],
14786 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
14787 },
14788 },
14789 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the pivot table is reading data from.
14790 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
14791 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
14792 &quot;sheetId&quot;: 42, # The sheet this range is on.
14793 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
14794 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
14795 },
14796 &quot;columns&quot;: [ # Each column grouping in the pivot table.
14797 { # A single grouping (either row or column) in a pivot table.
14798 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
14799 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
14800 { # Metadata about a value in a pivot grouping.
14801 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
14802 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14803 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14804 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14805 },
14806 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14807 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14808 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14809 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14810 },
14811 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
14812 },
14813 ],
14814 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
14815 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
14816 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
14817 &quot;countLimit&quot;: 42, # The count limit.
14818 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
14819 },
14820 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
14821 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
14822 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
14823 { # The kinds of value that a cell in a spreadsheet can have.
14824 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14825 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14826 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14827 },
14828 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14829 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14830 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14831 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14832 },
14833 ],
14834 },
14835 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
14836 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
14837 },
14838 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
14839 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
14840 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
14841 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
14842 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
14843 },
14844 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
14845 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
14846 { # A group name and a list of items from the source data that should be placed in the group with this name.
14847 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
14848 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14849 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14850 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14851 },
14852 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14853 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14854 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14855 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14856 },
14857 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
14858 { # The kinds of value that a cell in a spreadsheet can have.
14859 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14860 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14861 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14862 },
14863 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14864 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14865 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14866 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14867 },
14868 ],
14869 },
14870 ],
14871 },
14872 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
14873 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
14874 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
14875 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
14876 },
14877 },
14878 },
14879 ],
14880 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the pivot table is reading data from.
14881 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status for data source pivot tables.
14882 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
14883 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
14884 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
14885 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
14886 },
14887 &quot;values&quot;: [ # A list of values to include in the pivot table.
14888 { # The definition of how a value in a pivot table should be calculated.
14889 &quot;summarizeFunction&quot;: &quot;A String&quot;, # A function to summarize the value. If formula is set, the only supported values are SUM and CUSTOM. If sourceColumnOffset is set, then `CUSTOM` is not supported.
14890 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that this value reads from.
14891 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
14892 },
14893 &quot;name&quot;: &quot;A String&quot;, # A name to use for the value.
14894 &quot;calculatedDisplayType&quot;: &quot;A String&quot;, # If specified, indicates that pivot values should be displayed as the result of a calculation with another pivot value. For example, if calculated_display_type is specified as PERCENT_OF_GRAND_TOTAL, all the pivot values are displayed as the percentage of the grand total. In the Sheets editor, this is referred to as &quot;Show As&quot; in the value section of a pivot table.
14895 &quot;formula&quot;: &quot;A String&quot;, # A custom formula to calculate the value. The formula must start with an `=` character.
14896 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this value reads from. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this value refers to column `C`, whereas the offset `1` would refer to column `D`.
14897 },
14898 ],
14899 &quot;filterSpecs&quot;: [ # The filters applied to the source columns before aggregating data for the pivot table. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
14900 { # The pivot table filter criteria associated with a specific source column offset.
14901 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a pivot table. # The criteria for the column.
14902 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
14903 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
14904 { # The value of the condition.
14905 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
14906 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
14907 },
14908 ],
14909 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
14910 },
14911 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
14912 &quot;A String&quot;,
14913 ],
14914 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
14915 },
14916 &quot;columnOffsetIndex&quot;: 42, # The column offset of the source range.
14917 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column.
14918 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
14919 },
14920 },
14921 ],
14922 &quot;valueLayout&quot;: &quot;A String&quot;, # Whether values should be listed horizontally (as columns) or vertically (as rows).
14923 &quot;rows&quot;: [ # Each row grouping in the pivot table.
14924 { # A single grouping (either row or column) in a pivot table.
14925 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
14926 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
14927 { # Metadata about a value in a pivot grouping.
14928 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
14929 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14930 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14931 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14932 },
14933 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14934 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14935 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14936 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14937 },
14938 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
14939 },
14940 ],
14941 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
14942 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
14943 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
14944 &quot;countLimit&quot;: 42, # The count limit.
14945 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
14946 },
14947 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
14948 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
14949 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
14950 { # The kinds of value that a cell in a spreadsheet can have.
14951 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14952 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14953 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14954 },
14955 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14956 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14957 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14958 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14959 },
14960 ],
14961 },
14962 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
14963 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
14964 },
14965 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
14966 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
14967 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
14968 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
14969 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
14970 },
14971 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
14972 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
14973 { # A group name and a list of items from the source data that should be placed in the group with this name.
14974 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
14975 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14976 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14977 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14978 },
14979 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14980 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14981 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14982 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14983 },
14984 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
14985 { # The kinds of value that a cell in a spreadsheet can have.
14986 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
14987 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
14988 &quot;type&quot;: &quot;A String&quot;, # The type of error.
14989 },
14990 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
14991 &quot;boolValue&quot;: True or False, # Represents a boolean value.
14992 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
14993 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
14994 },
14995 ],
14996 },
14997 ],
14998 },
14999 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
15000 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
15001 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15002 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
15003 },
15004 },
15005 },
15006 ],
15007 },
15008 },
15009 ],
15010 },
15011 ],
15012 &quot;startColumn&quot;: 42, # The first column this GridData refers to, zero-based.
15013 &quot;rowMetadata&quot;: [ # Metadata about the requested rows in the grid, starting with the row in start_row.
15014 { # Properties about a dimension.
15015 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
15016 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
15017 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15018 },
15019 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
15020 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
15021 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
15022 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
15023 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
15024 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
15025 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
15026 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
15027 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
15028 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
15029 &quot;sheetId&quot;: 42, # The sheet this span is on.
15030 },
15031 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
15032 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
15033 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
15034 },
15035 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
15036 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
15037 },
15038 ],
15039 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
15040 },
15041 ],
15042 },
15043 ],
15044 &quot;filterViews&quot;: [ # The filter views in this sheet.
15045 { # A filter view.
15046 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
15047 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15048 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15049 &quot;sheetId&quot;: 42, # The sheet this range is on.
15050 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15051 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15052 },
15053 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
15054 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
15055 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
15056 { # A sort order associated with a specific column or row.
15057 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
15058 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15059 },
15060 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
15061 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
15062 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15063 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15064 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15065 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15066 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15067 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15068 },
15069 },
15070 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
15071 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15072 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15073 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15074 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15075 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15076 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15077 },
15078 },
15079 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
15080 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15081 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15082 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15083 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15084 },
15085 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
15086 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
15087 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15088 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15089 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15090 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15091 },
15092 },
15093 ],
15094 &quot;filterViewId&quot;: 42, # The ID of the filter view.
15095 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
15096 { # The filter criteria associated with a specific column.
15097 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
15098 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15099 },
15100 &quot;columnIndex&quot;: 42, # The column index.
15101 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
15102 &quot;hiddenValues&quot;: [ # Values that should be hidden.
15103 &quot;A String&quot;,
15104 ],
15105 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
15106 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15107 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15108 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15109 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15110 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15111 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15112 },
15113 },
15114 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
15115 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
15116 { # The value of the condition.
15117 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
15118 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
15119 },
15120 ],
15121 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
15122 },
15123 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
15124 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15125 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15126 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15127 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15128 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15129 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15130 },
15131 },
15132 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
15133 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15134 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15135 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15136 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15137 },
15138 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
15139 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15140 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15141 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15142 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15143 },
15144 },
15145 },
15146 ],
15147 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
15148 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
15149 &quot;hiddenValues&quot;: [ # Values that should be hidden.
15150 &quot;A String&quot;,
15151 ],
15152 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
15153 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15154 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15155 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15156 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15157 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15158 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15159 },
15160 },
15161 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
15162 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
15163 { # The value of the condition.
15164 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
15165 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
15166 },
15167 ],
15168 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
15169 },
15170 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
15171 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15172 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15173 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15174 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15175 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15176 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15177 },
15178 },
15179 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
15180 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15181 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15182 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15183 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15184 },
15185 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
15186 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15187 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15188 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15189 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15190 },
15191 },
15192 },
15193 },
15194 ],
15195 &quot;columnGroups&quot;: [ # All column groups on this sheet, ordered by increasing range start index, then by group depth.
15196 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
15197 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
15198 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
15199 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
15200 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
15201 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
15202 &quot;sheetId&quot;: 42, # The sheet this span is on.
15203 },
15204 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
15205 },
15206 ],
15207 &quot;developerMetadata&quot;: [ # The developer metadata associated with a sheet.
15208 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
15209 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
15210 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
15211 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
15212 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
15213 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
15214 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
15215 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
15216 &quot;sheetId&quot;: 42, # The sheet this span is on.
15217 },
15218 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
15219 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
15220 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
15221 },
15222 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
15223 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
15224 },
15225 ],
15226 &quot;charts&quot;: [ # The specifications of every chart on this sheet.
15227 { # A chart embedded in a sheet.
15228 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the chart.
15229 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
15230 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
15231 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
15232 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
15233 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
15234 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
15235 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
15236 },
15237 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
15238 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
15239 },
15240 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
15241 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
15242 },
15243 &quot;spec&quot;: { # The specifications of a chart. # The specification of the chart.
15244 &quot;subtitleTextPosition&quot;: { # Position settings for text. # The subtitle text position. This field is optional.
15245 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
15246 },
15247 &quot;orgChart&quot;: { # An org chart. Org charts require a unique set of labels in labels and may optionally include parent_labels and tooltips. parent_labels contain, for each node, the label identifying the parent node. tooltips contain, for each node, an optional tooltip. For example, to describe an OrgChart with Alice as the CEO, Bob as the President (reporting to Alice) and Cathy as VP of Sales (also reporting to Alice), have labels contain &quot;Alice&quot;, &quot;Bob&quot;, &quot;Cathy&quot;, parent_labels contain &quot;&quot;, &quot;Alice&quot;, &quot;Alice&quot; and tooltips contain &quot;CEO&quot;, &quot;President&quot;, &quot;VP Sales&quot;. # An org chart specification.
15248 &quot;nodeSize&quot;: &quot;A String&quot;, # The size of the org chart nodes.
15249 &quot;nodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the org chart nodes.
15250 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15251 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15252 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15253 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15254 },
15255 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data containing the label of the parent for the corresponding node. A blank value indicates that the node has no parent and is a top-level node. This field is optional.
15256 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15257 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15258 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15259 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15260 },
15261 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15262 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15263 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15264 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15265 },
15266 },
15267 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15268 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15269 },
15270 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15271 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15272 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15273 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15274 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15275 &quot;sheetId&quot;: 42, # The sheet this range is on.
15276 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15277 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15278 },
15279 ],
15280 },
15281 },
15282 &quot;selectedNodeColorStyle&quot;: { # A color value. # The color of the selected org chart nodes. If selected_node_color is also set, this field takes precedence.
15283 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15284 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15285 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15286 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15287 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15288 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15289 },
15290 },
15291 &quot;selectedNodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the selected org chart nodes.
15292 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15293 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15294 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15295 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15296 },
15297 &quot;labels&quot;: { # The data included in a domain or series. # The data containing the labels for all the nodes in the chart. Labels must be unique.
15298 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15299 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15300 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15301 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15302 },
15303 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15304 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15305 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15306 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15307 },
15308 },
15309 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15310 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15311 },
15312 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15313 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15314 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15315 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15316 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15317 &quot;sheetId&quot;: 42, # The sheet this range is on.
15318 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15319 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15320 },
15321 ],
15322 },
15323 },
15324 &quot;tooltips&quot;: { # The data included in a domain or series. # The data containing the tooltip for the corresponding node. A blank value results in no tooltip being displayed for the node. This field is optional.
15325 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15326 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15327 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15328 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15329 },
15330 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15331 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15332 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15333 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15334 },
15335 },
15336 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15337 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15338 },
15339 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15340 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15341 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15342 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15343 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15344 &quot;sheetId&quot;: 42, # The sheet this range is on.
15345 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15346 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15347 },
15348 ],
15349 },
15350 },
15351 &quot;nodeColorStyle&quot;: { # A color value. # The color of the org chart nodes. If node_color is also set, this field takes precedence.
15352 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15353 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15354 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15355 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15356 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15357 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15358 },
15359 },
15360 },
15361 &quot;fontName&quot;: &quot;A String&quot;, # The name of the font to use by default for all chart text (e.g. title, axis labels, legend). If a font is specified for a specific part of the chart it will override this font name.
15362 &quot;scorecardChart&quot;: { # A scorecard chart. Scorecard charts are used to highlight key performance indicators, known as KPIs, on the spreadsheet. A scorecard chart can represent things like total sales, average cost, or a top selling item. You can specify a single data value, or aggregate over a range of data. Percentage or absolute difference from a baseline value can be highlighted, like changes over time. # A scorecard chart specification.
15363 &quot;customFormatOptions&quot;: { # Custom number formatting options for chart attributes. # Custom formatting options for numeric key/baseline values in scorecard chart. This field is used only when number_format_source is set to CUSTOM. This field is optional.
15364 &quot;prefix&quot;: &quot;A String&quot;, # Custom prefix to be prepended to the chart attribute. This field is optional.
15365 &quot;suffix&quot;: &quot;A String&quot;, # Custom suffix to be appended to the chart attribute. This field is optional.
15366 },
15367 &quot;baselineValueData&quot;: { # The data included in a domain or series. # The data for scorecard baseline value. This field is optional.
15368 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15369 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15370 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15371 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15372 },
15373 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15374 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15375 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15376 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15377 },
15378 },
15379 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15380 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15381 },
15382 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15383 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15384 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15385 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15386 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15387 &quot;sheetId&quot;: 42, # The sheet this range is on.
15388 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15389 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15390 },
15391 ],
15392 },
15393 },
15394 &quot;scaleFactor&quot;: 3.14, # Value to scale scorecard key and baseline value. For example, a factor of 10 can be used to divide all values in the chart by 10. This field is optional.
15395 &quot;baselineValueFormat&quot;: { # Formatting options for baseline value. # Formatting options for baseline value. This field is needed only if baseline_value_data is specified.
15396 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for baseline value.
15397 &quot;bold&quot;: True or False, # True if the text is bold.
15398 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
15399 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
15400 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15401 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15402 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15403 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15404 },
15405 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
15406 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15407 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15408 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15409 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15410 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15411 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15412 },
15413 },
15414 &quot;italic&quot;: True or False, # True if the text is italicized.
15415 &quot;underline&quot;: True or False, # True if the text is underlined.
15416 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
15417 &quot;fontSize&quot;: 42, # The size of the font.
15418 },
15419 &quot;comparisonType&quot;: &quot;A String&quot;, # The comparison type of key value with baseline value.
15420 &quot;negativeColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a negative change for key value. This field is optional. If negative_color is also set, this field takes precedence.
15421 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15422 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15423 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15424 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15425 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15426 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15427 },
15428 },
15429 &quot;positiveColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a positive change for key value. This field is optional. If positive_color is also set, this field takes precedence.
15430 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15431 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15432 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15433 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15434 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15435 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15436 },
15437 },
15438 &quot;description&quot;: &quot;A String&quot;, # Description which is appended after the baseline value. This field is optional.
15439 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of baseline value. This field is optional. If not specified, default positioning is used.
15440 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
15441 },
15442 &quot;negativeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a negative change for key value. This field is optional.
15443 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15444 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15445 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15446 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15447 },
15448 &quot;positiveColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a positive change for key value. This field is optional.
15449 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15450 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15451 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15452 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15453 },
15454 },
15455 &quot;keyValueData&quot;: { # The data included in a domain or series. # The data for scorecard key value.
15456 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15457 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15458 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15459 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15460 },
15461 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15462 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15463 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15464 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15465 },
15466 },
15467 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15468 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15469 },
15470 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15471 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15472 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15473 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15474 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15475 &quot;sheetId&quot;: 42, # The sheet this range is on.
15476 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15477 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15478 },
15479 ],
15480 },
15481 },
15482 &quot;numberFormatSource&quot;: &quot;A String&quot;, # The number format source used in the scorecard chart. This field is optional.
15483 &quot;keyValueFormat&quot;: { # Formatting options for key value. # Formatting options for key value.
15484 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for key value.
15485 &quot;bold&quot;: True or False, # True if the text is bold.
15486 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
15487 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
15488 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15489 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15490 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15491 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15492 },
15493 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
15494 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15495 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15496 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15497 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15498 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15499 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15500 },
15501 },
15502 &quot;italic&quot;: True or False, # True if the text is italicized.
15503 &quot;underline&quot;: True or False, # True if the text is underlined.
15504 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
15505 &quot;fontSize&quot;: 42, # The size of the font.
15506 },
15507 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of key value. This field is optional. If not specified, default positioning is used.
15508 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
15509 },
15510 },
15511 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for key and baseline chart data in scorecard chart. This field is not supported for data source charts. Use the ChartData.aggregateType field of the key_value_data or baseline_value_data instead for data source charts. This field is optional.
15512 },
15513 &quot;sortSpecs&quot;: [ # The order to sort the chart data by. Only a single sort spec is supported. Only supported for data source charts.
15514 { # A sort order associated with a specific column or row.
15515 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
15516 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15517 },
15518 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
15519 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
15520 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15521 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15522 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15523 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15524 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15525 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15526 },
15527 },
15528 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
15529 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15530 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15531 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15532 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15533 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15534 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15535 },
15536 },
15537 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
15538 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15539 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15540 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15541 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15542 },
15543 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
15544 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
15545 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15546 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15547 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15548 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15549 },
15550 },
15551 ],
15552 &quot;title&quot;: &quot;A String&quot;, # The title of the chart.
15553 &quot;titleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The title text format. Strikethrough and underline are not supported.
15554 &quot;bold&quot;: True or False, # True if the text is bold.
15555 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
15556 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
15557 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15558 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15559 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15560 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15561 },
15562 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
15563 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15564 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15565 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15566 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15567 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15568 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15569 },
15570 },
15571 &quot;italic&quot;: True or False, # True if the text is italicized.
15572 &quot;underline&quot;: True or False, # True if the text is underlined.
15573 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
15574 &quot;fontSize&quot;: 42, # The size of the font.
15575 },
15576 &quot;maximized&quot;: True or False, # True to make a chart fill the entire space in which it&#x27;s rendered with minimum padding. False to use the default padding. (Not applicable to Geo and Org charts.)
15577 &quot;dataSourceChartProperties&quot;: { # Properties of a data source chart. # If present, the field contains data source chart specific properties.
15578 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the data source that the chart is associated with.
15579 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
15580 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
15581 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
15582 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
15583 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
15584 },
15585 },
15586 &quot;waterfallChart&quot;: { # A waterfall chart. # A waterfall chart specification.
15587 &quot;hideConnectorLines&quot;: True or False, # True to hide connector lines between columns.
15588 &quot;connectorLineStyle&quot;: { # Properties that describe the style of a line. # The line style for the connector lines.
15589 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
15590 &quot;width&quot;: 42, # The thickness of the line, in px.
15591 },
15592 &quot;series&quot;: [ # The data this waterfall chart is visualizing.
15593 { # A single series of data for a waterfall chart.
15594 &quot;data&quot;: { # The data included in a domain or series. # The data being visualized in this series.
15595 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15596 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15597 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15598 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15599 },
15600 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15601 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15602 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15603 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15604 },
15605 },
15606 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15607 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15608 },
15609 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15610 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15611 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15612 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15613 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15614 &quot;sheetId&quot;: 42, # The sheet this range is on.
15615 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15616 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15617 },
15618 ],
15619 },
15620 },
15621 &quot;subtotalColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all subtotal columns in this series.
15622 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
15623 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
15624 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15625 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15626 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15627 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15628 },
15629 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
15630 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15631 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15632 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15633 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15634 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15635 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15636 },
15637 },
15638 },
15639 &quot;negativeColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with negative values.
15640 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
15641 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
15642 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15643 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15644 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15645 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15646 },
15647 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
15648 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15649 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15650 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15651 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15652 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15653 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15654 },
15655 },
15656 },
15657 &quot;hideTrailingSubtotal&quot;: True or False, # True to hide the subtotal column from the end of the series. By default, a subtotal column will appear at the end of each series. Setting this field to true will hide that subtotal column for this series.
15658 &quot;customSubtotals&quot;: [ # Custom subtotal columns appearing in this series. The order in which subtotals are defined is not significant. Only one subtotal may be defined for each data point.
15659 { # A custom subtotal column for a waterfall chart series.
15660 &quot;subtotalIndex&quot;: 42, # The 0-based index of a data point within the series. If data_is_subtotal is true, the data point at this index is the subtotal. Otherwise, the subtotal appears after the data point with this index. A series can have multiple subtotals at arbitrary indices, but subtotals do not affect the indices of the data points. For example, if a series has three data points, their indices will always be 0, 1, and 2, regardless of how many subtotals exist on the series or what data points they are associated with.
15661 &quot;label&quot;: &quot;A String&quot;, # A label for the subtotal column.
15662 &quot;dataIsSubtotal&quot;: True or False, # True if the data point at subtotal_index is the subtotal. If false, the subtotal will be computed and appear after the data point.
15663 },
15664 ],
15665 &quot;positiveColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with positive values.
15666 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
15667 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
15668 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15669 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15670 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15671 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15672 },
15673 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
15674 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15675 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15676 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15677 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15678 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15679 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15680 },
15681 },
15682 },
15683 },
15684 ],
15685 &quot;domain&quot;: { # The domain of a waterfall chart. # The domain data (horizontal axis) for the waterfall chart.
15686 &quot;data&quot;: { # The data included in a domain or series. # The data of the WaterfallChartDomain.
15687 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15688 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15689 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15690 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15691 },
15692 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15693 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15694 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15695 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15696 },
15697 },
15698 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15699 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15700 },
15701 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15702 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15703 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15704 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15705 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15706 &quot;sheetId&quot;: 42, # The sheet this range is on.
15707 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15708 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15709 },
15710 ],
15711 },
15712 },
15713 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
15714 },
15715 &quot;firstValueIsTotal&quot;: True or False, # True to interpret the first value as a total.
15716 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type.
15717 },
15718 &quot;histogramChart&quot;: { # A histogram chart. A histogram chart groups data items into bins, displaying each bin as a column of stacked items. Histograms are used to display the distribution of a dataset. Each column of items represents a range into which those items fall. The number of bins can be chosen automatically or specified explicitly. # A histogram chart specification.
15719 &quot;series&quot;: [ # The series for a histogram may be either a single series of values to be bucketed or multiple series, each of the same length, containing the name of the series followed by the values to be bucketed for that series.
15720 { # A histogram series containing the series color and data.
15721 &quot;data&quot;: { # The data included in a domain or series. # The data for this histogram series.
15722 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15723 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15724 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15725 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15726 },
15727 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15728 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15729 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15730 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15731 },
15732 },
15733 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15734 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15735 },
15736 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15737 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15738 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15739 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15740 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15741 &quot;sheetId&quot;: 42, # The sheet this range is on.
15742 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15743 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15744 },
15745 ],
15746 },
15747 },
15748 &quot;barColorStyle&quot;: { # A color value. # The color of the column representing this series in each bucket. This field is optional. If bar_color is also set, this field takes precedence.
15749 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15750 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15751 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15752 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15753 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15754 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15755 },
15756 },
15757 &quot;barColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column representing this series in each bucket. This field is optional.
15758 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15759 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15760 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15761 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15762 },
15763 },
15764 ],
15765 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
15766 &quot;showItemDividers&quot;: True or False, # Whether horizontal divider lines should be displayed between items in each column.
15767 &quot;outlierPercentile&quot;: 3.14, # The outlier percentile is used to ensure that outliers do not adversely affect the calculation of bucket sizes. For example, setting an outlier percentile of 0.05 indicates that the top and bottom 5% of values when calculating buckets. The values are still included in the chart, they will be added to the first or last buckets instead of their own buckets. Must be between 0.0 and 0.5.
15768 &quot;bucketSize&quot;: 3.14, # By default the bucket size (the range of values stacked in a single column) is chosen automatically, but it may be overridden here. E.g., A bucket size of 1.5 results in buckets from 0 - 1.5, 1.5 - 3.0, etc. Cannot be negative. This field is optional.
15769 },
15770 &quot;hiddenDimensionStrategy&quot;: &quot;A String&quot;, # Determines how the charts will use hidden rows or columns.
15771 &quot;bubbleChart&quot;: { # A bubble chart. # A bubble chart specification.
15772 &quot;bubbleMaxRadiusSize&quot;: 42, # The max radius size of the bubbles, in pixels. If specified, the field must be a positive value.
15773 &quot;bubbleSizes&quot;: { # The data included in a domain or series. # The data contianing the bubble sizes. Bubble sizes are used to draw the bubbles at different sizes relative to each other. If specified, group_ids must also be specified. This field is optional.
15774 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15775 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15776 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15777 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15778 },
15779 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15780 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15781 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15782 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15783 },
15784 },
15785 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15786 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15787 },
15788 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15789 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15790 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15791 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15792 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15793 &quot;sheetId&quot;: 42, # The sheet this range is on.
15794 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15795 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15796 },
15797 ],
15798 },
15799 },
15800 &quot;groupIds&quot;: { # The data included in a domain or series. # The data containing the bubble group IDs. All bubbles with the same group ID are drawn in the same color. If bubble_sizes is specified then this field must also be specified but may contain blank values. This field is optional.
15801 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15802 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15803 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15804 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15805 },
15806 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15807 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15808 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15809 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15810 },
15811 },
15812 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15813 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15814 },
15815 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15816 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15817 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15818 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15819 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15820 &quot;sheetId&quot;: 42, # The sheet this range is on.
15821 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15822 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15823 },
15824 ],
15825 },
15826 },
15827 &quot;bubbleOpacity&quot;: 3.14, # The opacity of the bubbles between 0 and 1.0. 0 is fully transparent and 1 is fully opaque.
15828 &quot;bubbleLabels&quot;: { # The data included in a domain or series. # The data containing the bubble labels. These do not need to be unique.
15829 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15830 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15831 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15832 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15833 },
15834 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15835 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15836 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15837 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15838 },
15839 },
15840 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15841 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15842 },
15843 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15844 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15845 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15846 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15847 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15848 &quot;sheetId&quot;: 42, # The sheet this range is on.
15849 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15850 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15851 },
15852 ],
15853 },
15854 },
15855 &quot;bubbleBorderColorStyle&quot;: { # A color value. # The bubble border color. If bubble_border_color is also set, this field takes precedence.
15856 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15857 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15858 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15859 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15860 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15861 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15862 },
15863 },
15864 &quot;domain&quot;: { # The data included in a domain or series. # The data containing the bubble x-values. These values locate the bubbles in the chart horizontally.
15865 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15866 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15867 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15868 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15869 },
15870 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15871 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15872 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15873 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15874 },
15875 },
15876 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15877 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15878 },
15879 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15880 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15881 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15882 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15883 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15884 &quot;sheetId&quot;: 42, # The sheet this range is on.
15885 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15886 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15887 },
15888 ],
15889 },
15890 },
15891 &quot;bubbleTextStyle&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text inside the bubbles. Strikethrough and underline are not supported.
15892 &quot;bold&quot;: True or False, # True if the text is bold.
15893 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
15894 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
15895 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15896 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15897 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15898 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15899 },
15900 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
15901 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
15902 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
15903 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15904 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15905 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15906 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15907 },
15908 },
15909 &quot;italic&quot;: True or False, # True if the text is italicized.
15910 &quot;underline&quot;: True or False, # True if the text is underlined.
15911 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
15912 &quot;fontSize&quot;: 42, # The size of the font.
15913 },
15914 &quot;bubbleMinRadiusSize&quot;: 42, # The minimum radius size of the bubbles, in pixels. If specific, the field must be a positive value.
15915 &quot;bubbleBorderColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The bubble border color.
15916 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
15917 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
15918 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
15919 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
15920 },
15921 &quot;series&quot;: { # The data included in a domain or series. # The data contianing the bubble y-values. These values locate the bubbles in the chart vertically.
15922 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15923 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15924 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15925 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15926 },
15927 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15928 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15929 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15930 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15931 },
15932 },
15933 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15934 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15935 },
15936 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15937 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15938 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15939 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15940 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15941 &quot;sheetId&quot;: 42, # The sheet this range is on.
15942 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15943 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15944 },
15945 ],
15946 },
15947 },
15948 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the chart should be drawn.
15949 },
15950 &quot;subtitle&quot;: &quot;A String&quot;, # The subtitle of the chart.
15951 &quot;pieChart&quot;: { # A pie chart. # A pie chart specification.
15952 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the pie chart should be drawn.
15953 &quot;threeDimensional&quot;: True or False, # True if the pie is three dimensional.
15954 &quot;domain&quot;: { # The data included in a domain or series. # The data that covers the domain of the pie chart.
15955 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15956 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15957 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15958 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15959 },
15960 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15961 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15962 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15963 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15964 },
15965 },
15966 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15967 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15968 },
15969 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15970 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15971 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
15972 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
15973 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
15974 &quot;sheetId&quot;: 42, # The sheet this range is on.
15975 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
15976 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
15977 },
15978 ],
15979 },
15980 },
15981 &quot;pieHole&quot;: 3.14, # The size of the hole in the pie chart.
15982 &quot;series&quot;: { # The data included in a domain or series. # The data that covers the one and only series of the pie chart.
15983 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
15984 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
15985 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
15986 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
15987 },
15988 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
15989 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
15990 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
15991 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
15992 },
15993 },
15994 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
15995 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
15996 },
15997 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
15998 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
15999 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16000 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16001 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16002 &quot;sheetId&quot;: 42, # The sheet this range is on.
16003 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16004 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16005 },
16006 ],
16007 },
16008 },
16009 },
16010 &quot;treemapChart&quot;: { # A Treemap chart. # A treemap chart specification.
16011 &quot;headerColorStyle&quot;: { # A color value. # The background color for header cells. If header_color is also set, this field takes precedence.
16012 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16013 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16014 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16015 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16016 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16017 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16018 },
16019 },
16020 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data the contains the treemap cells&#x27; parent labels.
16021 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16022 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16023 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16024 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16025 },
16026 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16027 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16028 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16029 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16030 },
16031 },
16032 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16033 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16034 },
16035 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16036 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16037 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16038 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16039 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16040 &quot;sheetId&quot;: 42, # The sheet this range is on.
16041 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16042 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16043 },
16044 ],
16045 },
16046 },
16047 &quot;minValue&quot;: 3.14, # The minimum possible data value. Cells with values less than this will have the same color as cells with this value. If not specified, defaults to the actual minimum value from color_data, or the minimum value from size_data if color_data is not specified.
16048 &quot;hintedLevels&quot;: 42, # The number of additional data levels beyond the labeled levels to be shown on the treemap chart. These levels are not interactive and are shown without their labels. Defaults to 0 if not specified.
16049 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for header cells.
16050 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16051 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16052 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16053 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16054 },
16055 &quot;maxValue&quot;: 3.14, # The maximum possible data value. Cells with values greater than this will have the same color as cells with this value. If not specified, defaults to the actual maximum value from color_data, or the maximum value from size_data if color_data is not specified.
16056 &quot;sizeData&quot;: { # The data included in a domain or series. # The data that determines the size of each treemap data cell. This data is expected to be numeric. The cells corresponding to non-numeric or missing data will not be rendered. If color_data is not specified, this data is used to determine data cell background colors as well.
16057 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16058 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16059 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16060 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16061 },
16062 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16063 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16064 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16065 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16066 },
16067 },
16068 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16069 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16070 },
16071 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16072 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16073 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16074 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16075 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16076 &quot;sheetId&quot;: 42, # The sheet this range is on.
16077 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16078 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16079 },
16080 ],
16081 },
16082 },
16083 &quot;labels&quot;: { # The data included in a domain or series. # The data that contains the treemap cell labels.
16084 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16085 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16086 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16087 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16088 },
16089 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16090 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16091 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16092 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16093 },
16094 },
16095 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16096 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16097 },
16098 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16099 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16100 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16101 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16102 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16103 &quot;sheetId&quot;: 42, # The sheet this range is on.
16104 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16105 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16106 },
16107 ],
16108 },
16109 },
16110 &quot;colorData&quot;: { # The data included in a domain or series. # The data that determines the background color of each treemap data cell. This field is optional. If not specified, size_data is used to determine background colors. If specified, the data is expected to be numeric. color_scale will determine how the values in this data map to data cell background colors.
16111 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16112 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16113 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16114 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16115 },
16116 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16117 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16118 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16119 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16120 },
16121 },
16122 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16123 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16124 },
16125 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16126 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16127 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16128 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16129 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16130 &quot;sheetId&quot;: 42, # The sheet this range is on.
16131 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16132 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16133 },
16134 ],
16135 },
16136 },
16137 &quot;colorScale&quot;: { # A color scale for a treemap chart. # The color scale for data cells in the treemap chart. Data cells are assigned colors based on their color values. These color values come from color_data, or from size_data if color_data is not specified. Cells with color values less than or equal to min_value will have minValueColor as their background color. Cells with color values greater than or equal to max_value will have maxValueColor as their background color. Cells with color values between min_value and max_value will have background colors on a gradient between minValueColor and maxValueColor, the midpoint of the gradient being midValueColor. Cells with missing or non-numeric color values will have noDataColor as their background color.
16138 &quot;midValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified.
16139 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16140 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16141 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16142 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16143 },
16144 &quot;maxValueColorStyle&quot;: { # A color value. # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified. If max_value_color is also set, this field takes precedence.
16145 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16146 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16147 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16148 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16149 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16150 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16151 },
16152 },
16153 &quot;minValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified.
16154 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16155 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16156 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16157 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16158 },
16159 &quot;noDataColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified.
16160 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16161 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16162 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16163 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16164 },
16165 &quot;noDataColorStyle&quot;: { # A color value. # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified. If no_data_color is also set, this field takes precedence.
16166 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16167 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16168 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16169 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16170 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16171 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16172 },
16173 },
16174 &quot;midValueColorStyle&quot;: { # A color value. # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified. If mid_value_color is also set, this field takes precedence.
16175 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16176 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16177 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16178 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16179 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16180 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16181 },
16182 },
16183 &quot;maxValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified.
16184 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16185 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16186 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16187 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16188 },
16189 &quot;minValueColorStyle&quot;: { # A color value. # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified. If min_value_color is also set, this field takes precedence.
16190 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16191 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16192 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16193 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16194 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16195 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16196 },
16197 },
16198 },
16199 &quot;hideTooltips&quot;: True or False, # True to hide tooltips.
16200 &quot;levels&quot;: 42, # The number of data levels to show on the treemap chart. These levels are interactive and are shown with their labels. Defaults to 2 if not specified.
16201 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format for all labels on the chart.
16202 &quot;bold&quot;: True or False, # True if the text is bold.
16203 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
16204 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
16205 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16206 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16207 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16208 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16209 },
16210 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
16211 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16212 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16213 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16214 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16215 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16216 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16217 },
16218 },
16219 &quot;italic&quot;: True or False, # True if the text is italicized.
16220 &quot;underline&quot;: True or False, # True if the text is underlined.
16221 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
16222 &quot;fontSize&quot;: 42, # The size of the font.
16223 },
16224 },
16225 &quot;titleTextPosition&quot;: { # Position settings for text. # The title text position. This field is optional.
16226 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
16227 },
16228 &quot;altText&quot;: &quot;A String&quot;, # The alternative text that describes the chart. This is often used for accessibility.
16229 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the entire chart. Not applicable to Org charts. If background_color is also set, this field takes precedence.
16230 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16231 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16232 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16233 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16234 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16235 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16236 },
16237 },
16238 &quot;filterSpecs&quot;: [ # The filters applied to the source data of the chart. Only supported for data source charts.
16239 { # The filter criteria associated with a specific column.
16240 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
16241 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16242 },
16243 &quot;columnIndex&quot;: 42, # The column index.
16244 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
16245 &quot;hiddenValues&quot;: [ # Values that should be hidden.
16246 &quot;A String&quot;,
16247 ],
16248 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
16249 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16250 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16251 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16252 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16253 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16254 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16255 },
16256 },
16257 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
16258 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
16259 { # The value of the condition.
16260 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
16261 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
16262 },
16263 ],
16264 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
16265 },
16266 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
16267 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16268 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16269 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16270 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16271 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16272 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16273 },
16274 },
16275 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
16276 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16277 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16278 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16279 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16280 },
16281 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
16282 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16283 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16284 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16285 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16286 },
16287 },
16288 },
16289 ],
16290 &quot;candlestickChart&quot;: { # A candlestick chart. # A candlestick chart specification.
16291 &quot;domain&quot;: { # The domain of a CandlestickChart. # The domain data (horizontal axis) for the candlestick chart. String data will be treated as discrete labels, other data will be treated as continuous values.
16292 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
16293 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickDomain.
16294 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16295 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16296 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16297 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16298 },
16299 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16300 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16301 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16302 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16303 },
16304 },
16305 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16306 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16307 },
16308 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16309 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16310 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16311 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16312 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16313 &quot;sheetId&quot;: 42, # The sheet this range is on.
16314 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16315 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16316 },
16317 ],
16318 },
16319 },
16320 },
16321 &quot;data&quot;: [ # The Candlestick chart data. Only one CandlestickData is supported.
16322 { # The Candlestick chart data, each containing the low, open, close, and high values for a series.
16323 &quot;openSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the open/initial value for each candle. This is the bottom of the candle body. If less than the close value the candle will be filled. Otherwise the candle will be hollow.
16324 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
16325 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16326 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16327 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16328 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16329 },
16330 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16331 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16332 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16333 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16334 },
16335 },
16336 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16337 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16338 },
16339 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16340 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16341 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16342 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16343 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16344 &quot;sheetId&quot;: 42, # The sheet this range is on.
16345 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16346 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16347 },
16348 ],
16349 },
16350 },
16351 },
16352 &quot;highSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the high/maximum value for each candle. This is the top of the candle&#x27;s center line.
16353 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
16354 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16355 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16356 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16357 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16358 },
16359 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16360 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16361 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16362 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16363 },
16364 },
16365 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16366 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16367 },
16368 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16369 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16370 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16371 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16372 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16373 &quot;sheetId&quot;: 42, # The sheet this range is on.
16374 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16375 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16376 },
16377 ],
16378 },
16379 },
16380 },
16381 &quot;lowSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the low/minimum value for each candle. This is the bottom of the candle&#x27;s center line.
16382 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
16383 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16384 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16385 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16386 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16387 },
16388 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16389 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16390 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16391 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16392 },
16393 },
16394 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16395 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16396 },
16397 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16398 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16399 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16400 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16401 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16402 &quot;sheetId&quot;: 42, # The sheet this range is on.
16403 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16404 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16405 },
16406 ],
16407 },
16408 },
16409 },
16410 &quot;closeSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the close/final value for each candle. This is the top of the candle body. If greater than the open value the candle will be filled. Otherwise the candle will be hollow.
16411 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
16412 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16413 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16414 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16415 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16416 },
16417 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16418 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16419 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16420 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16421 },
16422 },
16423 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16424 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16425 },
16426 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16427 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16428 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16429 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16430 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16431 &quot;sheetId&quot;: 42, # The sheet this range is on.
16432 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16433 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16434 },
16435 ],
16436 },
16437 },
16438 },
16439 },
16440 ],
16441 },
16442 &quot;basicChart&quot;: { # The specification for a basic chart. See BasicChartType for the list of charts this supports. # A basic chart specification, can be one of many kinds of charts. See BasicChartType for the list of all charts this supports.
16443 &quot;domains&quot;: [ # The domain of data this is charting. Only a single domain is supported.
16444 { # The domain of a chart. For example, if charting stock prices over time, this would be the date.
16445 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
16446 &quot;domain&quot;: { # The data included in a domain or series. # The data of the domain. For example, if charting stock prices over time, this is the data representing the dates.
16447 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16448 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16449 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16450 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16451 },
16452 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16453 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16454 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16455 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16456 },
16457 },
16458 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16459 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16460 },
16461 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16462 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16463 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16464 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16465 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16466 &quot;sheetId&quot;: 42, # The sheet this range is on.
16467 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16468 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16469 },
16470 ],
16471 },
16472 },
16473 },
16474 ],
16475 &quot;compareMode&quot;: &quot;A String&quot;, # The behavior of tooltips and data highlighting when hovering on data and chart area.
16476 &quot;axis&quot;: [ # The axis on the chart.
16477 { # An axis of the chart. A chart may not have more than one axis per axis position.
16478 &quot;title&quot;: &quot;A String&quot;, # The title of this axis. If set, this overrides any title inferred from headers of the data.
16479 &quot;position&quot;: &quot;A String&quot;, # The position of this axis.
16480 &quot;titleTextPosition&quot;: { # Position settings for text. # The axis title text position.
16481 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
16482 },
16483 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the title. Only valid if the axis is not associated with the domain.
16484 &quot;bold&quot;: True or False, # True if the text is bold.
16485 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
16486 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
16487 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16488 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16489 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16490 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16491 },
16492 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
16493 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16494 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16495 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16496 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16497 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16498 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16499 },
16500 },
16501 &quot;italic&quot;: True or False, # True if the text is italicized.
16502 &quot;underline&quot;: True or False, # True if the text is underlined.
16503 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
16504 &quot;fontSize&quot;: 42, # The size of the font.
16505 },
16506 &quot;viewWindowOptions&quot;: { # The options that define a &quot;view window&quot; for a chart (such as the visible values in an axis). # The view window options for this axis.
16507 &quot;viewWindowMax&quot;: 3.14, # The maximum numeric value to be shown in this view window. If unset, will automatically determine a maximum value that looks good for the data.
16508 &quot;viewWindowMin&quot;: 3.14, # The minimum numeric value to be shown in this view window. If unset, will automatically determine a minimum value that looks good for the data.
16509 &quot;viewWindowMode&quot;: &quot;A String&quot;, # The view window&#x27;s mode.
16510 },
16511 },
16512 ],
16513 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
16514 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type for charts that support vertical stacking. Applies to Area, Bar, Column, Combo, and Stepped Area charts.
16515 &quot;threeDimensional&quot;: True or False, # True to make the chart 3D. Applies to Bar and Column charts.
16516 &quot;interpolateNulls&quot;: True or False, # If some values in a series are missing, gaps may appear in the chart (e.g, segments of lines in a line chart will be missing). To eliminate these gaps set this to true. Applies to Line, Area, and Combo charts.
16517 &quot;series&quot;: [ # The data this chart is visualizing.
16518 { # A single series of data in a chart. For example, if charting stock prices over time, multiple series may exist, one for the &quot;Open Price&quot;, &quot;High Price&quot;, &quot;Low Price&quot; and &quot;Close Price&quot;.
16519 &quot;series&quot;: { # The data included in a domain or series. # The data being visualized in this chart series.
16520 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
16521 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
16522 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
16523 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
16524 },
16525 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
16526 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
16527 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
16528 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
16529 },
16530 },
16531 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
16532 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16533 },
16534 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
16535 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
16536 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16537 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16538 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16539 &quot;sheetId&quot;: 42, # The sheet this range is on.
16540 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16541 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16542 },
16543 ],
16544 },
16545 },
16546 &quot;type&quot;: &quot;A String&quot;, # The type of this series. Valid only if the chartType is COMBO. Different types will change the way the series is visualized. Only LINE, AREA, and COLUMN are supported.
16547 &quot;targetAxis&quot;: &quot;A String&quot;, # The minor axis that will specify the range of values for this series. For example, if charting stocks over time, the &quot;Volume&quot; series may want to be pinned to the right with the prices pinned to the left, because the scale of trading volume is different than the scale of prices. It is an error to specify an axis that isn&#x27;t a valid minor axis for the chart&#x27;s type.
16548 &quot;colorStyle&quot;: { # A color value. # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used. If color is also set, this field takes precedence.
16549 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16550 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16551 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16552 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16553 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16554 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16555 },
16556 },
16557 &quot;lineStyle&quot;: { # Properties that describe the style of a line. # The line style of this series. Valid only if the chartType is AREA, LINE, or SCATTER. COMBO charts are also supported if the series chart type is AREA or LINE.
16558 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
16559 &quot;width&quot;: 42, # The thickness of the line, in px.
16560 },
16561 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used.
16562 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16563 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16564 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16565 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16566 },
16567 },
16568 ],
16569 &quot;chartType&quot;: &quot;A String&quot;, # The type of the chart.
16570 &quot;headerCount&quot;: 42, # The number of rows or columns in the data that are &quot;headers&quot;. If not set, Google Sheets will guess how many rows are headers based on the data. (Note that BasicChartAxis.title may override the axis title inferred from the header values.)
16571 &quot;lineSmoothing&quot;: True or False, # Gets whether all lines should be rendered smooth or straight by default. Applies to Line charts.
16572 },
16573 &quot;subtitleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The subtitle text format. Strikethrough and underline are not supported.
16574 &quot;bold&quot;: True or False, # True if the text is bold.
16575 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
16576 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
16577 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16578 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16579 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16580 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16581 },
16582 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
16583 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16584 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16585 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16586 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16587 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16588 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16589 },
16590 },
16591 &quot;italic&quot;: True or False, # True if the text is italicized.
16592 &quot;underline&quot;: True or False, # True if the text is underlined.
16593 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
16594 &quot;fontSize&quot;: 42, # The size of the font.
16595 },
16596 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the entire chart. Not applicable to Org charts.
16597 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16598 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16599 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16600 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16601 },
16602 },
16603 &quot;chartId&quot;: 42, # The ID of the chart.
16604 },
16605 ],
16606 &quot;slicers&quot;: [ # The slicers on this sheet.
16607 { # A slicer in a sheet.
16608 &quot;slicerId&quot;: 42, # The ID of the slicer.
16609 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the slicer. Note that slicer can be positioned only on existing sheet. Also, width and height of slicer can be automatically adjusted to keep it within permitted limits.
16610 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
16611 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
16612 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
16613 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
16614 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
16615 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
16616 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
16617 },
16618 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
16619 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
16620 },
16621 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
16622 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
16623 },
16624 &quot;spec&quot;: { # The specifications of a slicer. # The specification of the slicer.
16625 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The filtering criteria of the slicer.
16626 &quot;hiddenValues&quot;: [ # Values that should be hidden.
16627 &quot;A String&quot;,
16628 ],
16629 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
16630 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16631 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16632 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16633 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16634 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16635 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16636 },
16637 },
16638 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
16639 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
16640 { # The value of the condition.
16641 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
16642 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
16643 },
16644 ],
16645 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
16646 },
16647 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
16648 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16649 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16650 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16651 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16652 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16653 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16654 },
16655 },
16656 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
16657 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16658 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16659 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16660 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16661 },
16662 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
16663 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16664 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16665 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16666 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16667 },
16668 },
16669 &quot;title&quot;: &quot;A String&quot;, # The title of the slicer.
16670 &quot;dataRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The data range of the slicer.
16671 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16672 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16673 &quot;sheetId&quot;: 42, # The sheet this range is on.
16674 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16675 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16676 },
16677 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format of title in the slicer.
16678 &quot;bold&quot;: True or False, # True if the text is bold.
16679 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
16680 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
16681 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16682 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16683 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16684 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16685 },
16686 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
16687 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16688 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16689 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16690 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16691 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16692 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16693 },
16694 },
16695 &quot;italic&quot;: True or False, # True if the text is italicized.
16696 &quot;underline&quot;: True or False, # True if the text is underlined.
16697 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
16698 &quot;fontSize&quot;: 42, # The size of the font.
16699 },
16700 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the slicer.
16701 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16702 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16703 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16704 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16705 },
16706 &quot;columnIndex&quot;: 42, # The column index in the data table on which the filter is applied to.
16707 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the slicer. If background_color is also set, this field takes precedence.
16708 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16709 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16710 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16711 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16712 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16713 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16714 },
16715 },
16716 &quot;applyToPivotTables&quot;: True or False, # True if the filter should apply to pivot tables. If not set, default to `True`.
16717 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of title in the slicer. If unspecified, defaults to `LEFT`
16718 },
16719 },
16720 ],
16721 &quot;basicFilter&quot;: { # The default filter associated with a sheet. # The filter on this sheet, if any.
16722 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the filter covers.
16723 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16724 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16725 &quot;sheetId&quot;: 42, # The sheet this range is on.
16726 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16727 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16728 },
16729 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
16730 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
16731 &quot;hiddenValues&quot;: [ # Values that should be hidden.
16732 &quot;A String&quot;,
16733 ],
16734 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
16735 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16736 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16737 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16738 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16739 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16740 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16741 },
16742 },
16743 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
16744 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
16745 { # The value of the condition.
16746 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
16747 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
16748 },
16749 ],
16750 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
16751 },
16752 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
16753 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16754 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16755 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16756 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16757 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16758 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16759 },
16760 },
16761 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
16762 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16763 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16764 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16765 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16766 },
16767 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
16768 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16769 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16770 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16771 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16772 },
16773 },
16774 },
16775 &quot;filterSpecs&quot;: [ # The filter criteria per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
16776 { # The filter criteria associated with a specific column.
16777 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
16778 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16779 },
16780 &quot;columnIndex&quot;: 42, # The column index.
16781 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
16782 &quot;hiddenValues&quot;: [ # Values that should be hidden.
16783 &quot;A String&quot;,
16784 ],
16785 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
16786 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16787 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16788 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16789 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16790 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16791 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16792 },
16793 },
16794 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
16795 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
16796 { # The value of the condition.
16797 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
16798 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
16799 },
16800 ],
16801 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
16802 },
16803 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
16804 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16805 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16806 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16807 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16808 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16809 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16810 },
16811 },
16812 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
16813 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16814 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16815 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16816 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16817 },
16818 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
16819 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16820 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16821 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16822 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16823 },
16824 },
16825 },
16826 ],
16827 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
16828 { # A sort order associated with a specific column or row.
16829 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
16830 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16831 },
16832 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
16833 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
16834 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16835 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16836 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16837 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16838 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16839 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16840 },
16841 },
16842 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
16843 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16844 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16845 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16846 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16847 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16848 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16849 },
16850 },
16851 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
16852 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16853 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16854 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16855 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16856 },
16857 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
16858 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
16859 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16860 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16861 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16862 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16863 },
16864 },
16865 ],
16866 },
16867 &quot;merges&quot;: [ # The ranges that are merged together.
16868 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16869 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16870 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16871 &quot;sheetId&quot;: 42, # The sheet this range is on.
16872 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16873 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16874 },
16875 ],
16876 &quot;properties&quot;: { # Properties of a sheet. # The properties of the sheet.
16877 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
16878 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
16879 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
16880 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
16881 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
16882 &quot;rowCount&quot;: 42, # The number of rows in the grid.
16883 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
16884 &quot;columnCount&quot;: 42, # The number of columns in the grid.
16885 },
16886 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
16887 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16888 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16889 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16890 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16891 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16892 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16893 },
16894 },
16895 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
16896 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
16897 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
16898 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
16899 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16900 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16901 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16902 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16903 },
16904 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
16905 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
16906 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
16907 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
16908 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
16909 { # A column in a data source.
16910 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
16911 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
16912 },
16913 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
16914 },
16915 ],
16916 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
16917 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
16918 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
16919 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
16920 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
16921 },
16922 },
16923 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
16924 },
16925 &quot;protectedRanges&quot;: [ # The protected ranges in this sheet.
16926 { # A protected range.
16927 &quot;requestingUserCanEdit&quot;: True or False, # True if the user who requested this protected range can edit the protected area. This field is read-only.
16928 &quot;protectedRangeId&quot;: 42, # The ID of the protected range. This field is read-only.
16929 &quot;description&quot;: &quot;A String&quot;, # The description of this protected range.
16930 &quot;warningOnly&quot;: True or False, # True if this protected range will show a warning when editing. Warning-based protection means that every user can edit data in the protected range, except editing will prompt a warning asking the user to confirm the edit. When writing: if this field is true, then editors is ignored. Additionally, if this field is changed from true to false and the `editors` field is not set (nor included in the field mask), then the editors will be set to all the editors in the document.
16931 &quot;editors&quot;: { # The editors of a protected range. # The users and groups with edit access to the protected range. This field is only visible to users with edit access to the protected range and the document. Editors are not supported with warning_only protection.
16932 &quot;domainUsersCanEdit&quot;: True or False, # True if anyone in the document&#x27;s domain has edit access to the protected range. Domain protection is only supported on documents within a domain.
16933 &quot;groups&quot;: [ # The email addresses of groups with edit access to the protected range.
16934 &quot;A String&quot;,
16935 ],
16936 &quot;users&quot;: [ # The email addresses of users with edit access to the protected range.
16937 &quot;A String&quot;,
16938 ],
16939 },
16940 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this protected range is backed by, if any. When writing, only one of range or named_range_id may be set.
16941 &quot;unprotectedRanges&quot;: [ # The list of unprotected ranges within a protected sheet. Unprotected ranges are only supported on protected sheets.
16942 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
16943 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16944 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16945 &quot;sheetId&quot;: 42, # The sheet this range is on.
16946 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16947 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16948 },
16949 ],
16950 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range that is being protected. The range may be fully unbounded, in which case this is considered a protected sheet. When writing, only one of range or named_range_id may be set.
16951 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
16952 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
16953 &quot;sheetId&quot;: 42, # The sheet this range is on.
16954 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
16955 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
16956 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070016957 },
16958 ],
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070016959 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080016960 ],
16961 &quot;properties&quot;: { # Properties of a spreadsheet. # Overall properties of a spreadsheet.
16962 &quot;timeZone&quot;: &quot;A String&quot;, # The time zone of the spreadsheet, in CLDR format such as `America/New_York`. If the time zone isn&#x27;t recognized, this may be a custom time zone such as `GMT-07:00`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080016963 &quot;defaultFormat&quot;: { # The format of a cell. # The default format of all cells in the spreadsheet. CellData.effectiveFormat will not be set if the cell&#x27;s format is equal to this default format. This field is read-only.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080016964 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
16965 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
16966 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
16967 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
16968 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
16969 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16970 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16971 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16972 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16973 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16974 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16975 },
16976 },
16977 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
16978 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16979 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16980 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16981 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16982 },
16983 },
16984 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
16985 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
16986 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
16987 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
16988 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
16989 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
16990 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16991 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16992 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
16993 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
16994 },
16995 },
16996 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
16997 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
16998 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
16999 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17000 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17001 },
17002 },
17003 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
17004 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17005 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17006 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17007 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17008 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17009 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17010 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17011 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17012 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17013 },
17014 },
17015 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17016 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17017 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17018 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17019 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17020 },
17021 },
17022 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
17023 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17024 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17025 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17026 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17027 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17028 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17029 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17030 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17031 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17032 },
17033 },
17034 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17035 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17036 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17037 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17038 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17039 },
17040 },
17041 },
17042 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
17043 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17044 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17045 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17046 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17047 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17048 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17049 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070017050 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017051 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
17052 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017053 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
17054 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
17055 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
17056 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017057 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
17058 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
17059 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
17060 &quot;bold&quot;: True or False, # True if the text is bold.
17061 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
17062 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017063 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17064 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017065 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17066 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017067 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017068 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
17069 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17070 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17071 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17072 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17073 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17074 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17075 },
17076 },
17077 &quot;italic&quot;: True or False, # True if the text is italicized.
17078 &quot;underline&quot;: True or False, # True if the text is underlined.
17079 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
17080 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017081 },
17082 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
17083 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
17084 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070017085 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017086 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
17087 &quot;bottom&quot;: 42, # The bottom padding of the cell.
17088 &quot;top&quot;: 42, # The top padding of the cell.
17089 &quot;right&quot;: 42, # The right padding of the cell.
17090 &quot;left&quot;: 42, # The left padding of the cell.
17091 },
17092 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
17093 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17094 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17095 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17096 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17097 },
17098 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070017099 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017100 &quot;locale&quot;: &quot;A String&quot;, # The locale of the spreadsheet in one of the following formats: * an ISO 639-1 language code such as `en` * an ISO 639-2 language code such as `fil`, if no 639-1 code exists * a combination of the ISO language code and country code, such as `en_US` Note: when updating this field, not all locales/languages are supported.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017101 &quot;iterativeCalculationSettings&quot;: { # Settings to control how circular dependencies are resolved with iterative calculation. # Determines whether and how circular references are resolved with iterative calculation. Absence of this field means that circular references result in calculation errors.
17102 &quot;maxIterations&quot;: 42, # When iterative calculation is enabled, the maximum number of calculation rounds to perform.
17103 &quot;convergenceThreshold&quot;: 3.14, # When iterative calculation is enabled and successive results differ by less than this threshold value, the calculation rounds stop.
17104 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017105 &quot;title&quot;: &quot;A String&quot;, # The title of the spreadsheet.
17106 &quot;spreadsheetTheme&quot;: { # Represents spreadsheet theme # Theme applied to the spreadsheet.
17107 &quot;themeColors&quot;: [ # The spreadsheet theme color pairs. To update you must provide all theme color pairs.
17108 { # A pair mapping a spreadsheet theme color type to the concrete color it represents.
17109 &quot;colorType&quot;: &quot;A String&quot;, # The type of the spreadsheet theme color.
17110 &quot;color&quot;: { # A color value. # The concrete color corresponding to the theme color type.
17111 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17112 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17113 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17114 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17115 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17116 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17117 },
17118 },
17119 },
17120 ],
17121 &quot;primaryFontFamily&quot;: &quot;A String&quot;, # Name of the primary font family.
17122 },
17123 &quot;autoRecalc&quot;: &quot;A String&quot;, # The amount of time to wait before volatile functions are recalculated.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017124 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017125 &quot;dataSourceSchedules&quot;: [ # Output only. A list of data source refresh schedules.
17126 { # Schedule for refreshing the data source. Data sources in the spreadsheet are refreshed within a time interval. You can specify the start time by clicking the Scheduled Refresh button in the Sheets editor, but the interval is fixed at 4 hours. For example, if you specify a start time of 8am , the refresh will take place between 8am and 12pm every day.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017127 &quot;weeklySchedule&quot;: { # A weekly schedule for data to refresh on specific days in a given time interval. # Weekly refresh schedule.
17128 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017129 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017130 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017131 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
17132 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070017133 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017134 &quot;daysOfWeek&quot;: [ # Days of the week to refresh. At least one day must be specified.
17135 &quot;A String&quot;,
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070017136 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017137 },
17138 &quot;refreshScope&quot;: &quot;A String&quot;, # The scope of the refresh. Must be ALL_DATA_SOURCES.
17139 &quot;dailySchedule&quot;: { # A schedule for data to refresh every day in a given time interval. # Daily refresh schedule.
17140 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017141 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017142 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017143 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
17144 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070017145 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070017146 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017147 &quot;enabled&quot;: True or False, # True if the refresh schedule is enabled, or false otherwise.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017148 &quot;monthlySchedule&quot;: { # A monthly schedule for data to refresh on specific days in the month in a given time interval. # Monthly refresh schedule.
17149 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
17150 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
17151 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
17152 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
17153 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070017154 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017155 &quot;daysOfMonth&quot;: [ # Days of the month to refresh. Only 1-28 are supported, mapping to the 1st to the 28th day. At lesat one day must be specified.
17156 42,
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017157 ],
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070017158 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017159 &quot;nextRun&quot;: { # Represents a time interval, encoded as a Timestamp start (inclusive) and a Timestamp end (exclusive). The start must be less than or equal to the end. When the start equals the end, the interval is empty (matches no time). When both start and end are unspecified, the interval matches any time. # Output only. The time interval of the next run.
17160 &quot;endTime&quot;: &quot;A String&quot;, # Optional. Exclusive end of the interval. If specified, a Timestamp matching this interval will have to be before the end.
17161 &quot;startTime&quot;: &quot;A String&quot;, # Optional. Inclusive start of the interval. If specified, a Timestamp matching this interval will have to be the same or after the start.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070017162 },
17163 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017164 ],
17165 }
Bu Sun Kim65020912020-05-20 12:08:20 -070017166
17167 x__xgafv: string, V1 error format.
17168 Allowed values
17169 1 - v1 error format
17170 2 - v2 error format
17171
17172Returns:
17173 An object of the form:
17174
17175 { # Resource that represents a spreadsheet.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017176 &quot;spreadsheetId&quot;: &quot;A String&quot;, # The ID of the spreadsheet. This field is read-only.
17177 &quot;dataSources&quot;: [ # A list of external data sources connected with the spreadsheet.
17178 { # Information about an external data source in the spreadsheet.
17179 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
17180 { # A column in a data source.
17181 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
17182 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
17183 },
17184 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
17185 },
17186 ],
17187 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
17188 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
17189 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
17190 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
17191 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
17192 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
17193 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
17194 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
17195 &quot;sheetId&quot;: 42, # The sheet this range is on.
17196 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
17197 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
17198 },
17199 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
17200 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
17201 },
17202 ],
17203 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
17204 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
17205 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
17206 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
17207 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
17208 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
17209 },
17210 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
17211 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
17212 },
17213 },
17214 },
17215 },
17216 ],
17217 &quot;developerMetadata&quot;: [ # The developer metadata associated with a spreadsheet.
17218 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
17219 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
17220 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
17221 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
17222 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
17223 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
17224 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
17225 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
17226 &quot;sheetId&quot;: 42, # The sheet this span is on.
17227 },
17228 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
17229 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
17230 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
17231 },
17232 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
17233 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
17234 },
17235 ],
17236 &quot;namedRanges&quot;: [ # The named ranges defined in a spreadsheet.
17237 { # A named range.
17238 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range.
17239 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this represents.
17240 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
17241 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
17242 &quot;sheetId&quot;: 42, # The sheet this range is on.
17243 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
17244 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
17245 },
17246 &quot;name&quot;: &quot;A String&quot;, # The name of the named range.
17247 },
17248 ],
17249 &quot;spreadsheetUrl&quot;: &quot;A String&quot;, # The url of the spreadsheet. This field is read-only.
17250 &quot;sheets&quot;: [ # The sheets that are part of a spreadsheet.
17251 { # A sheet in a spreadsheet.
17252 &quot;rowGroups&quot;: [ # All row groups on this sheet, ordered by increasing range start index, then by group depth.
17253 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
17254 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
17255 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
17256 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
17257 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
17258 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
17259 &quot;sheetId&quot;: 42, # The sheet this span is on.
17260 },
17261 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
17262 },
17263 ],
17264 &quot;bandedRanges&quot;: [ # The banded (alternating colors) ranges on this sheet.
17265 { # A banded (alternating colors) range in a sheet.
17266 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range over which these properties are applied.
17267 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
17268 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
17269 &quot;sheetId&quot;: 42, # The sheet this range is on.
17270 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
17271 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
17272 },
17273 &quot;columnProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for column bands. These properties are applied on a column- by-column basis throughout all the columns in the range. At least one of row_properties or column_properties must be specified.
17274 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017275 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17276 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017277 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17278 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080017279 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017280 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
17281 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17282 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17283 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17284 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17285 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17286 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17287 },
17288 },
17289 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
17290 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17291 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17292 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17293 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17294 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17295 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17296 },
17297 },
17298 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
17299 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17300 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17301 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17302 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17303 },
17304 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
17305 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17306 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17307 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17308 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17309 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17310 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17311 },
17312 },
17313 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
17314 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17315 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17316 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17317 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17318 },
17319 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
17320 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17321 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17322 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17323 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17324 },
17325 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
17326 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17327 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17328 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17329 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17330 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17331 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17332 },
17333 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070017334 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080017335 &quot;rowProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for row bands. These properties are applied on a row-by-row basis throughout all the rows in the range. At least one of row_properties or column_properties must be specified.
17336 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
17337 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17338 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17339 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17340 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17341 },
17342 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
17343 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17344 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17345 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17346 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17347 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17348 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17349 },
17350 },
17351 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
17352 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17353 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17354 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17355 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17356 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17357 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17358 },
17359 },
17360 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
17361 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17362 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17363 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17364 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17365 },
17366 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
17367 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17368 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17369 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17370 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17371 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17372 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17373 },
17374 },
17375 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
17376 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17377 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17378 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17379 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17380 },
17381 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
17382 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17383 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17384 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17385 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17386 },
17387 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
17388 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17389 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17390 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17391 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17392 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17393 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17394 },
17395 },
17396 },
17397 &quot;bandedRangeId&quot;: 42, # The id of the banded range.
17398 },
17399 ],
17400 &quot;conditionalFormats&quot;: [ # The conditional format rules in this sheet.
17401 { # A rule describing a conditional format.
17402 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
17403 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
17404 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
17405 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
17406 &quot;sheetId&quot;: 42, # The sheet this range is on.
17407 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
17408 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
17409 },
17410 ],
17411 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
17412 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
17413 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
17414 { # The value of the condition.
17415 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
17416 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
17417 },
17418 ],
17419 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
17420 },
17421 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
17422 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
17423 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
17424 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17425 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17426 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17427 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17428 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17429 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17430 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17431 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17432 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17433 },
17434 },
17435 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17436 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17437 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17438 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17439 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17440 },
17441 },
17442 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
17443 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17444 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17445 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17446 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17447 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17448 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17449 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17450 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17451 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17452 },
17453 },
17454 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17455 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17456 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17457 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17458 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17459 },
17460 },
17461 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
17462 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17463 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17464 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17465 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17466 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17467 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17468 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17469 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17470 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17471 },
17472 },
17473 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17474 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17475 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17476 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17477 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17478 },
17479 },
17480 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
17481 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17482 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17483 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17484 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17485 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17486 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17487 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17488 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17489 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17490 },
17491 },
17492 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17493 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17494 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17495 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17496 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17497 },
17498 },
17499 },
17500 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
17501 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17502 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17503 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17504 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17505 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17506 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17507 },
17508 },
17509 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
17510 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
17511 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
17512 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
17513 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
17514 },
17515 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
17516 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
17517 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
17518 &quot;bold&quot;: True or False, # True if the text is bold.
17519 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
17520 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
17521 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17522 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17523 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17524 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17525 },
17526 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
17527 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17528 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17529 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17530 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17531 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17532 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17533 },
17534 },
17535 &quot;italic&quot;: True or False, # True if the text is italicized.
17536 &quot;underline&quot;: True or False, # True if the text is underlined.
17537 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
17538 &quot;fontSize&quot;: 42, # The size of the font.
17539 },
17540 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
17541 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
17542 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
17543 },
17544 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
17545 &quot;bottom&quot;: 42, # The bottom padding of the cell.
17546 &quot;top&quot;: 42, # The top padding of the cell.
17547 &quot;right&quot;: 42, # The right padding of the cell.
17548 &quot;left&quot;: 42, # The left padding of the cell.
17549 },
17550 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
17551 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17552 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17553 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17554 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17555 },
17556 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
17557 },
17558 },
17559 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
17560 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
17561 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
17562 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17563 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17564 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17565 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17566 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17567 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17568 },
17569 },
17570 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
17571 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17572 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17573 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17574 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17575 },
17576 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
17577 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
17578 },
17579 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
17580 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
17581 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17582 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17583 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17584 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17585 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17586 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17587 },
17588 },
17589 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
17590 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17591 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17592 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17593 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17594 },
17595 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
17596 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
17597 },
17598 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
17599 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
17600 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17601 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17602 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17603 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17604 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17605 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17606 },
17607 },
17608 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
17609 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17610 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17611 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17612 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17613 },
17614 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
17615 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
17616 },
17617 },
17618 },
17619 ],
17620 &quot;data&quot;: [ # Data in the grid, if this is a grid sheet. The number of GridData objects returned is dependent on the number of ranges requested on this sheet. For example, if this is representing `Sheet1`, and the spreadsheet was requested with ranges `Sheet1!A1:C10` and `Sheet1!D15:E20`, then the first GridData will have a startRow/startColumn of `0`, while the second one will have `startRow 14` (zero-based row 15), and `startColumn 3` (zero-based column D). For a DATA_SOURCE sheet, you can not request a specific range, the GridData contains all the values.
17621 { # Data in the grid, as well as metadata about the dimensions.
17622 &quot;columnMetadata&quot;: [ # Metadata about the requested columns in the grid, starting with the column in start_column.
17623 { # Properties about a dimension.
17624 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
17625 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
17626 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
17627 },
17628 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
17629 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
17630 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
17631 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
17632 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
17633 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
17634 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
17635 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
17636 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
17637 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
17638 &quot;sheetId&quot;: 42, # The sheet this span is on.
17639 },
17640 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
17641 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
17642 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
17643 },
17644 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
17645 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
17646 },
17647 ],
17648 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
17649 },
17650 ],
17651 &quot;startRow&quot;: 42, # The first row this GridData refers to, zero-based.
17652 &quot;rowData&quot;: [ # The data in the grid, one entry per row, starting with the row in startRow. The values in RowData will correspond to columns starting at start_column.
17653 { # Data about each cell in a row.
17654 &quot;values&quot;: [ # The values in the row, one per column.
17655 { # Data about a specific cell.
17656 &quot;effectiveValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The effective value of the cell. For cells with formulas, this is the calculated value. For cells with literals, this is the same as the user_entered_value. This field is read-only.
17657 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
17658 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
17659 &quot;type&quot;: &quot;A String&quot;, # The type of error.
17660 },
17661 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
17662 &quot;boolValue&quot;: True or False, # Represents a boolean value.
17663 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
17664 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
17665 },
17666 &quot;formattedValue&quot;: &quot;A String&quot;, # The formatted value of the cell. This is the value as it&#x27;s shown to the user. This field is read-only.
17667 &quot;userEnteredFormat&quot;: { # The format of a cell. # The format the user entered for the cell. When writing, the new format will be merged with the existing format.
17668 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
17669 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
17670 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17671 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17672 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17673 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17674 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17675 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17676 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17677 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17678 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17679 },
17680 },
17681 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17682 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17683 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17684 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17685 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17686 },
17687 },
17688 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
17689 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17690 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17691 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17692 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17693 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17694 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17695 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17696 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17697 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17698 },
17699 },
17700 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17701 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17702 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17703 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17704 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17705 },
17706 },
17707 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
17708 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17709 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17710 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17711 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17712 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17713 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17714 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17715 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17716 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17717 },
17718 },
17719 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17720 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17721 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17722 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17723 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17724 },
17725 },
17726 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
17727 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17728 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17729 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17730 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17731 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17732 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17733 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17734 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17735 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17736 },
17737 },
17738 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17739 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17740 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17741 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17742 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17743 },
17744 },
17745 },
17746 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
17747 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17748 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17749 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17750 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17751 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17752 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17753 },
17754 },
17755 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
17756 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
17757 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
17758 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
17759 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
17760 },
17761 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
17762 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
17763 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
17764 &quot;bold&quot;: True or False, # True if the text is bold.
17765 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
17766 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
17767 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17768 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17769 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17770 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17771 },
17772 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
17773 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17774 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17775 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17776 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17777 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17778 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17779 },
17780 },
17781 &quot;italic&quot;: True or False, # True if the text is italicized.
17782 &quot;underline&quot;: True or False, # True if the text is underlined.
17783 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
17784 &quot;fontSize&quot;: 42, # The size of the font.
17785 },
17786 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
17787 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
17788 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
17789 },
17790 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
17791 &quot;bottom&quot;: 42, # The bottom padding of the cell.
17792 &quot;top&quot;: 42, # The top padding of the cell.
17793 &quot;right&quot;: 42, # The right padding of the cell.
17794 &quot;left&quot;: 42, # The left padding of the cell.
17795 },
17796 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
17797 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17798 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17799 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17800 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17801 },
17802 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
17803 },
17804 &quot;textFormatRuns&quot;: [ # Runs of rich text applied to subsections of the cell. Runs are only valid on user entered strings, not formulas, bools, or numbers. Properties of a run start at a specific index in the text and continue until the next run. Runs will inherit the properties of the cell unless explicitly changed. When writing, the new runs will overwrite any prior runs. When writing a new user_entered_value, previous runs are erased.
17805 { # A run of a text format. The format of this run continues until the start index of the next run. When updating, all fields must be set.
17806 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of this run. Absent values inherit the cell&#x27;s format.
17807 &quot;bold&quot;: True or False, # True if the text is bold.
17808 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
17809 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
17810 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17811 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17812 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17813 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17814 },
17815 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
17816 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17817 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17818 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17819 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17820 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17821 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17822 },
17823 },
17824 &quot;italic&quot;: True or False, # True if the text is italicized.
17825 &quot;underline&quot;: True or False, # True if the text is underlined.
17826 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
17827 &quot;fontSize&quot;: 42, # The size of the font.
17828 },
17829 &quot;startIndex&quot;: 42, # The character index where this run starts.
17830 },
17831 ],
17832 &quot;hyperlink&quot;: &quot;A String&quot;, # A hyperlink this cell points to, if any. If the cell contains multiple hyperlinks, this field will be empty. This field is read-only. To set it, use a `=HYPERLINK` formula in the userEnteredValue.formulaValue field.
17833 &quot;dataSourceTable&quot;: { # A data source table, which allows the user to import a static table of data from the DataSource into Sheets. This is also known as &quot;Extract&quot; in the Sheets editor. # A data source table anchored at this cell. The size of data source table itself is computed dynamically based on its configuration. Only the first cell of the data source table contains the data source table definition. The other cells will contain the display values of the data source table result in their effective_value fields.
17834 &quot;columns&quot;: [ # Columns selected for the data source table. The column_selection_type must be SELECTED.
17835 { # An unique identifier that references a data source column.
17836 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
17837 },
17838 ],
17839 &quot;sortSpecs&quot;: [ # Sort specifications in the data source table. The result of the data source table is sorted based on the sort specifications in order.
17840 { # A sort order associated with a specific column or row.
17841 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
17842 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
17843 },
17844 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
17845 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
17846 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17847 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17848 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17849 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17850 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17851 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17852 },
17853 },
17854 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
17855 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17856 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17857 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17858 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17859 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17860 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17861 },
17862 },
17863 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
17864 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17865 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17866 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17867 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17868 },
17869 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
17870 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
17871 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17872 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17873 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17874 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17875 },
17876 },
17877 ],
17878 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the data source table is associated with.
17879 &quot;columnSelectionType&quot;: &quot;A String&quot;, # The type to select columns for the data source table. Defaults to SELECTED.
17880 &quot;rowLimit&quot;: 42, # The limit of rows to return. If not set, a default limit is applied. Please refer to the Sheets editor for the default and max limit.
17881 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
17882 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
17883 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
17884 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
17885 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
17886 },
17887 &quot;filterSpecs&quot;: [ # Filter specifications in the data source table.
17888 { # The filter criteria associated with a specific column.
17889 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
17890 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
17891 },
17892 &quot;columnIndex&quot;: 42, # The column index.
17893 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
17894 &quot;hiddenValues&quot;: [ # Values that should be hidden.
17895 &quot;A String&quot;,
17896 ],
17897 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
17898 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17899 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17900 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17901 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17902 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17903 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17904 },
17905 },
17906 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
17907 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
17908 { # The value of the condition.
17909 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
17910 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
17911 },
17912 ],
17913 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
17914 },
17915 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
17916 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17917 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17918 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17919 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17920 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17921 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17922 },
17923 },
17924 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
17925 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17926 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17927 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17928 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17929 },
17930 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
17931 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17932 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17933 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17934 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17935 },
17936 },
17937 },
17938 ],
17939 },
17940 &quot;dataSourceFormula&quot;: { # A data source formula. # Output only. Information about a data source formula on the cell. The field is set if user_entered_value is a formula referencing some DATA_SOURCE sheet, e.g `=SUM(DataSheet!Column)`.
17941 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
17942 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
17943 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
17944 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
17945 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
17946 },
17947 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the formula is associated with.
17948 },
17949 &quot;userEnteredValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The value the user entered in the cell. e.g, `1234`, `&#x27;Hello&#x27;`, or `=NOW()` Note: Dates, Times and DateTimes are represented as doubles in serial number format.
17950 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
17951 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
17952 &quot;type&quot;: &quot;A String&quot;, # The type of error.
17953 },
17954 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
17955 &quot;boolValue&quot;: True or False, # Represents a boolean value.
17956 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
17957 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
17958 },
17959 &quot;note&quot;: &quot;A String&quot;, # Any note on the cell.
17960 &quot;dataValidation&quot;: { # A data validation rule. # A data validation rule on the cell, if any. When writing, the new data validation rule will overwrite any prior rule.
17961 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
17962 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
17963 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
17964 { # The value of the condition.
17965 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
17966 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
17967 },
17968 ],
17969 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
17970 },
17971 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
17972 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
17973 },
17974 &quot;effectiveFormat&quot;: { # The format of a cell. # The effective format being used by the cell. This includes the results of applying any conditional formatting and, if the cell contains a formula, the computed number format. If the effective format is the default format, effective format will not be written. This field is read-only.
17975 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
17976 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
17977 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17978 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17979 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17980 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
17981 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
17982 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17983 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17984 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17985 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17986 },
17987 },
17988 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
17989 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
17990 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
17991 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
17992 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
17993 },
17994 },
17995 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
17996 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
17997 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
17998 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
17999 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18000 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18001 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18002 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18003 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18004 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18005 },
18006 },
18007 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
18008 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18009 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18010 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18011 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18012 },
18013 },
18014 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
18015 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
18016 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
18017 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
18018 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18019 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18020 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18021 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18022 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18023 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18024 },
18025 },
18026 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
18027 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18028 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18029 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18030 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18031 },
18032 },
18033 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
18034 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
18035 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
18036 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
18037 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18038 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18039 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18040 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18041 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18042 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18043 },
18044 },
18045 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
18046 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18047 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18048 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18049 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18050 },
18051 },
18052 },
18053 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
18054 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18055 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18056 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18057 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18058 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18059 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18060 },
18061 },
18062 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
18063 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
18064 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
18065 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
18066 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
18067 },
18068 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
18069 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
18070 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
18071 &quot;bold&quot;: True or False, # True if the text is bold.
18072 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
18073 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
18074 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18075 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18076 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18077 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18078 },
18079 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
18080 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18081 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18082 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18083 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18084 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18085 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18086 },
18087 },
18088 &quot;italic&quot;: True or False, # True if the text is italicized.
18089 &quot;underline&quot;: True or False, # True if the text is underlined.
18090 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
18091 &quot;fontSize&quot;: 42, # The size of the font.
18092 },
18093 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
18094 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
18095 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
18096 },
18097 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
18098 &quot;bottom&quot;: 42, # The bottom padding of the cell.
18099 &quot;top&quot;: 42, # The top padding of the cell.
18100 &quot;right&quot;: 42, # The right padding of the cell.
18101 &quot;left&quot;: 42, # The left padding of the cell.
18102 },
18103 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
18104 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18105 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18106 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18107 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18108 },
18109 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
18110 },
18111 &quot;pivotTable&quot;: { # A pivot table. # A pivot table anchored at this cell. The size of pivot table itself is computed dynamically based on its data, grouping, filters, values, etc. Only the top-left cell of the pivot table contains the pivot table definition. The other cells will contain the calculated values of the results of the pivot in their effective_value fields.
18112 &quot;criteria&quot;: { # An optional mapping of filters per source column offset. The filters are applied before aggregating data into the pivot table. The map&#x27;s key is the column offset of the source range that you want to filter, and the value is the criteria for that column. For example, if the source was `C10:E15`, a key of `0` will have the filter for column `C`, whereas the key `1` is for column `D`. This field is deprecated in favor of filter_specs.
18113 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a pivot table.
18114 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
18115 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
18116 { # The value of the condition.
18117 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
18118 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
18119 },
18120 ],
18121 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
18122 },
18123 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
18124 &quot;A String&quot;,
18125 ],
18126 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
18127 },
18128 },
18129 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the pivot table is reading data from.
18130 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
18131 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
18132 &quot;sheetId&quot;: 42, # The sheet this range is on.
18133 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
18134 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
18135 },
18136 &quot;columns&quot;: [ # Each column grouping in the pivot table.
18137 { # A single grouping (either row or column) in a pivot table.
18138 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
18139 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
18140 { # Metadata about a value in a pivot grouping.
18141 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
18142 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
18143 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
18144 &quot;type&quot;: &quot;A String&quot;, # The type of error.
18145 },
18146 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
18147 &quot;boolValue&quot;: True or False, # Represents a boolean value.
18148 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
18149 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
18150 },
18151 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
18152 },
18153 ],
18154 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
18155 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
18156 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
18157 &quot;countLimit&quot;: 42, # The count limit.
18158 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
18159 },
18160 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
18161 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
18162 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
18163 { # The kinds of value that a cell in a spreadsheet can have.
18164 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
18165 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
18166 &quot;type&quot;: &quot;A String&quot;, # The type of error.
18167 },
18168 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
18169 &quot;boolValue&quot;: True or False, # Represents a boolean value.
18170 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
18171 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
18172 },
18173 ],
18174 },
18175 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
18176 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18177 },
18178 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
18179 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
18180 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
18181 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
18182 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
18183 },
18184 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
18185 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
18186 { # A group name and a list of items from the source data that should be placed in the group with this name.
18187 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
18188 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
18189 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
18190 &quot;type&quot;: &quot;A String&quot;, # The type of error.
18191 },
18192 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
18193 &quot;boolValue&quot;: True or False, # Represents a boolean value.
18194 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
18195 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
18196 },
18197 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
18198 { # The kinds of value that a cell in a spreadsheet can have.
18199 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
18200 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
18201 &quot;type&quot;: &quot;A String&quot;, # The type of error.
18202 },
18203 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
18204 &quot;boolValue&quot;: True or False, # Represents a boolean value.
18205 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
18206 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
18207 },
18208 ],
18209 },
18210 ],
18211 },
18212 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
18213 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
18214 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
18215 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
18216 },
18217 },
18218 },
18219 ],
18220 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the pivot table is reading data from.
18221 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status for data source pivot tables.
18222 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
18223 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
18224 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
18225 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
18226 },
18227 &quot;values&quot;: [ # A list of values to include in the pivot table.
18228 { # The definition of how a value in a pivot table should be calculated.
18229 &quot;summarizeFunction&quot;: &quot;A String&quot;, # A function to summarize the value. If formula is set, the only supported values are SUM and CUSTOM. If sourceColumnOffset is set, then `CUSTOM` is not supported.
18230 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that this value reads from.
18231 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18232 },
18233 &quot;name&quot;: &quot;A String&quot;, # A name to use for the value.
18234 &quot;calculatedDisplayType&quot;: &quot;A String&quot;, # If specified, indicates that pivot values should be displayed as the result of a calculation with another pivot value. For example, if calculated_display_type is specified as PERCENT_OF_GRAND_TOTAL, all the pivot values are displayed as the percentage of the grand total. In the Sheets editor, this is referred to as &quot;Show As&quot; in the value section of a pivot table.
18235 &quot;formula&quot;: &quot;A String&quot;, # A custom formula to calculate the value. The formula must start with an `=` character.
18236 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this value reads from. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this value refers to column `C`, whereas the offset `1` would refer to column `D`.
18237 },
18238 ],
18239 &quot;filterSpecs&quot;: [ # The filters applied to the source columns before aggregating data for the pivot table. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
18240 { # The pivot table filter criteria associated with a specific source column offset.
18241 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a pivot table. # The criteria for the column.
18242 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
18243 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
18244 { # The value of the condition.
18245 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
18246 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
18247 },
18248 ],
18249 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
18250 },
18251 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
18252 &quot;A String&quot;,
18253 ],
18254 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
18255 },
18256 &quot;columnOffsetIndex&quot;: 42, # The column offset of the source range.
18257 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column.
18258 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18259 },
18260 },
18261 ],
18262 &quot;valueLayout&quot;: &quot;A String&quot;, # Whether values should be listed horizontally (as columns) or vertically (as rows).
18263 &quot;rows&quot;: [ # Each row grouping in the pivot table.
18264 { # A single grouping (either row or column) in a pivot table.
18265 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
18266 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
18267 { # Metadata about a value in a pivot grouping.
18268 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
18269 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
18270 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
18271 &quot;type&quot;: &quot;A String&quot;, # The type of error.
18272 },
18273 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
18274 &quot;boolValue&quot;: True or False, # Represents a boolean value.
18275 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
18276 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
18277 },
18278 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
18279 },
18280 ],
18281 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
18282 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
18283 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
18284 &quot;countLimit&quot;: 42, # The count limit.
18285 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
18286 },
18287 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
18288 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
18289 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
18290 { # The kinds of value that a cell in a spreadsheet can have.
18291 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
18292 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
18293 &quot;type&quot;: &quot;A String&quot;, # The type of error.
18294 },
18295 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
18296 &quot;boolValue&quot;: True or False, # Represents a boolean value.
18297 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
18298 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
18299 },
18300 ],
18301 },
18302 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
18303 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18304 },
18305 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
18306 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
18307 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
18308 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
18309 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
18310 },
18311 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
18312 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
18313 { # A group name and a list of items from the source data that should be placed in the group with this name.
18314 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
18315 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
18316 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
18317 &quot;type&quot;: &quot;A String&quot;, # The type of error.
18318 },
18319 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
18320 &quot;boolValue&quot;: True or False, # Represents a boolean value.
18321 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
18322 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
18323 },
18324 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
18325 { # The kinds of value that a cell in a spreadsheet can have.
18326 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
18327 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
18328 &quot;type&quot;: &quot;A String&quot;, # The type of error.
18329 },
18330 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
18331 &quot;boolValue&quot;: True or False, # Represents a boolean value.
18332 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
18333 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
18334 },
18335 ],
18336 },
18337 ],
18338 },
18339 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
18340 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
18341 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
18342 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
18343 },
18344 },
18345 },
18346 ],
18347 },
18348 },
18349 ],
18350 },
18351 ],
18352 &quot;startColumn&quot;: 42, # The first column this GridData refers to, zero-based.
18353 &quot;rowMetadata&quot;: [ # Metadata about the requested rows in the grid, starting with the row in start_row.
18354 { # Properties about a dimension.
18355 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
18356 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
18357 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18358 },
18359 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
18360 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
18361 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
18362 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
18363 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
18364 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
18365 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
18366 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
18367 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
18368 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
18369 &quot;sheetId&quot;: 42, # The sheet this span is on.
18370 },
18371 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
18372 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
18373 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
18374 },
18375 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
18376 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
18377 },
18378 ],
18379 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
18380 },
18381 ],
18382 },
18383 ],
18384 &quot;filterViews&quot;: [ # The filter views in this sheet.
18385 { # A filter view.
18386 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
18387 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
18388 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
18389 &quot;sheetId&quot;: 42, # The sheet this range is on.
18390 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
18391 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
18392 },
18393 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
18394 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
18395 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
18396 { # A sort order associated with a specific column or row.
18397 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
18398 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18399 },
18400 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
18401 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
18402 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18403 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18404 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18405 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18406 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18407 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18408 },
18409 },
18410 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
18411 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18412 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18413 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18414 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18415 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18416 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18417 },
18418 },
18419 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
18420 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18421 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18422 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18423 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18424 },
18425 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
18426 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
18427 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18428 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18429 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18430 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18431 },
18432 },
18433 ],
18434 &quot;filterViewId&quot;: 42, # The ID of the filter view.
18435 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
18436 { # The filter criteria associated with a specific column.
18437 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
18438 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18439 },
18440 &quot;columnIndex&quot;: 42, # The column index.
18441 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
18442 &quot;hiddenValues&quot;: [ # Values that should be hidden.
18443 &quot;A String&quot;,
18444 ],
18445 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
18446 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18447 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18448 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18449 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18450 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18451 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18452 },
18453 },
18454 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
18455 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
18456 { # The value of the condition.
18457 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
18458 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
18459 },
18460 ],
18461 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
18462 },
18463 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
18464 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18465 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18466 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18467 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18468 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18469 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18470 },
18471 },
18472 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
18473 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18474 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18475 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18476 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18477 },
18478 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
18479 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18480 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18481 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18482 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18483 },
18484 },
18485 },
18486 ],
18487 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
18488 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
18489 &quot;hiddenValues&quot;: [ # Values that should be hidden.
18490 &quot;A String&quot;,
18491 ],
18492 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
18493 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18494 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18495 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18496 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18497 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18498 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18499 },
18500 },
18501 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
18502 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
18503 { # The value of the condition.
18504 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
18505 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
18506 },
18507 ],
18508 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
18509 },
18510 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
18511 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18512 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18513 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18514 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18515 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18516 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18517 },
18518 },
18519 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
18520 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18521 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18522 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18523 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18524 },
18525 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
18526 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18527 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18528 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18529 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18530 },
18531 },
18532 },
18533 },
18534 ],
18535 &quot;columnGroups&quot;: [ # All column groups on this sheet, ordered by increasing range start index, then by group depth.
18536 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
18537 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
18538 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
18539 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
18540 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
18541 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
18542 &quot;sheetId&quot;: 42, # The sheet this span is on.
18543 },
18544 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
18545 },
18546 ],
18547 &quot;developerMetadata&quot;: [ # The developer metadata associated with a sheet.
18548 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
18549 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
18550 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
18551 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
18552 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
18553 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
18554 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
18555 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
18556 &quot;sheetId&quot;: 42, # The sheet this span is on.
18557 },
18558 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
18559 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
18560 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
18561 },
18562 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
18563 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
18564 },
18565 ],
18566 &quot;charts&quot;: [ # The specifications of every chart on this sheet.
18567 { # A chart embedded in a sheet.
18568 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the chart.
18569 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
18570 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
18571 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
18572 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
18573 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
18574 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
18575 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
18576 },
18577 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
18578 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
18579 },
18580 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
18581 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
18582 },
18583 &quot;spec&quot;: { # The specifications of a chart. # The specification of the chart.
18584 &quot;subtitleTextPosition&quot;: { # Position settings for text. # The subtitle text position. This field is optional.
18585 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
18586 },
18587 &quot;orgChart&quot;: { # An org chart. Org charts require a unique set of labels in labels and may optionally include parent_labels and tooltips. parent_labels contain, for each node, the label identifying the parent node. tooltips contain, for each node, an optional tooltip. For example, to describe an OrgChart with Alice as the CEO, Bob as the President (reporting to Alice) and Cathy as VP of Sales (also reporting to Alice), have labels contain &quot;Alice&quot;, &quot;Bob&quot;, &quot;Cathy&quot;, parent_labels contain &quot;&quot;, &quot;Alice&quot;, &quot;Alice&quot; and tooltips contain &quot;CEO&quot;, &quot;President&quot;, &quot;VP Sales&quot;. # An org chart specification.
18588 &quot;nodeSize&quot;: &quot;A String&quot;, # The size of the org chart nodes.
18589 &quot;nodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the org chart nodes.
18590 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18591 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18592 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18593 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18594 },
18595 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data containing the label of the parent for the corresponding node. A blank value indicates that the node has no parent and is a top-level node. This field is optional.
18596 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
18597 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
18598 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
18599 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
18600 },
18601 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
18602 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
18603 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
18604 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
18605 },
18606 },
18607 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
18608 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18609 },
18610 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
18611 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
18612 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
18613 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
18614 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
18615 &quot;sheetId&quot;: 42, # The sheet this range is on.
18616 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
18617 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
18618 },
18619 ],
18620 },
18621 },
18622 &quot;selectedNodeColorStyle&quot;: { # A color value. # The color of the selected org chart nodes. If selected_node_color is also set, this field takes precedence.
18623 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18624 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18625 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18626 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18627 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18628 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18629 },
18630 },
18631 &quot;selectedNodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the selected org chart nodes.
18632 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18633 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18634 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18635 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18636 },
18637 &quot;labels&quot;: { # The data included in a domain or series. # The data containing the labels for all the nodes in the chart. Labels must be unique.
18638 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
18639 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
18640 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
18641 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
18642 },
18643 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
18644 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
18645 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
18646 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
18647 },
18648 },
18649 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
18650 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18651 },
18652 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
18653 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
18654 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
18655 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
18656 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
18657 &quot;sheetId&quot;: 42, # The sheet this range is on.
18658 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
18659 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
18660 },
18661 ],
18662 },
18663 },
18664 &quot;tooltips&quot;: { # The data included in a domain or series. # The data containing the tooltip for the corresponding node. A blank value results in no tooltip being displayed for the node. This field is optional.
18665 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
18666 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
18667 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
18668 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
18669 },
18670 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
18671 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
18672 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
18673 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
18674 },
18675 },
18676 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
18677 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18678 },
18679 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
18680 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
18681 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
18682 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
18683 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
18684 &quot;sheetId&quot;: 42, # The sheet this range is on.
18685 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
18686 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
18687 },
18688 ],
18689 },
18690 },
18691 &quot;nodeColorStyle&quot;: { # A color value. # The color of the org chart nodes. If node_color is also set, this field takes precedence.
18692 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18693 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18694 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18695 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18696 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18697 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18698 },
18699 },
18700 },
18701 &quot;fontName&quot;: &quot;A String&quot;, # The name of the font to use by default for all chart text (e.g. title, axis labels, legend). If a font is specified for a specific part of the chart it will override this font name.
18702 &quot;scorecardChart&quot;: { # A scorecard chart. Scorecard charts are used to highlight key performance indicators, known as KPIs, on the spreadsheet. A scorecard chart can represent things like total sales, average cost, or a top selling item. You can specify a single data value, or aggregate over a range of data. Percentage or absolute difference from a baseline value can be highlighted, like changes over time. # A scorecard chart specification.
18703 &quot;customFormatOptions&quot;: { # Custom number formatting options for chart attributes. # Custom formatting options for numeric key/baseline values in scorecard chart. This field is used only when number_format_source is set to CUSTOM. This field is optional.
18704 &quot;prefix&quot;: &quot;A String&quot;, # Custom prefix to be prepended to the chart attribute. This field is optional.
18705 &quot;suffix&quot;: &quot;A String&quot;, # Custom suffix to be appended to the chart attribute. This field is optional.
18706 },
18707 &quot;baselineValueData&quot;: { # The data included in a domain or series. # The data for scorecard baseline value. This field is optional.
18708 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
18709 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
18710 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
18711 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
18712 },
18713 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
18714 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
18715 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
18716 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
18717 },
18718 },
18719 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
18720 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18721 },
18722 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
18723 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
18724 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
18725 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
18726 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
18727 &quot;sheetId&quot;: 42, # The sheet this range is on.
18728 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
18729 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
18730 },
18731 ],
18732 },
18733 },
18734 &quot;scaleFactor&quot;: 3.14, # Value to scale scorecard key and baseline value. For example, a factor of 10 can be used to divide all values in the chart by 10. This field is optional.
18735 &quot;baselineValueFormat&quot;: { # Formatting options for baseline value. # Formatting options for baseline value. This field is needed only if baseline_value_data is specified.
18736 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for baseline value.
18737 &quot;bold&quot;: True or False, # True if the text is bold.
18738 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
18739 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
18740 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18741 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18742 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18743 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18744 },
18745 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
18746 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18747 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18748 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18749 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18750 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18751 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18752 },
18753 },
18754 &quot;italic&quot;: True or False, # True if the text is italicized.
18755 &quot;underline&quot;: True or False, # True if the text is underlined.
18756 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
18757 &quot;fontSize&quot;: 42, # The size of the font.
18758 },
18759 &quot;comparisonType&quot;: &quot;A String&quot;, # The comparison type of key value with baseline value.
18760 &quot;negativeColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a negative change for key value. This field is optional. If negative_color is also set, this field takes precedence.
18761 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18762 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18763 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18764 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18765 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18766 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18767 },
18768 },
18769 &quot;positiveColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a positive change for key value. This field is optional. If positive_color is also set, this field takes precedence.
18770 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18771 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18772 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18773 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18774 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18775 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18776 },
18777 },
18778 &quot;description&quot;: &quot;A String&quot;, # Description which is appended after the baseline value. This field is optional.
18779 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of baseline value. This field is optional. If not specified, default positioning is used.
18780 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
18781 },
18782 &quot;negativeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a negative change for key value. This field is optional.
18783 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18784 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18785 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18786 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18787 },
18788 &quot;positiveColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a positive change for key value. This field is optional.
18789 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18790 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18791 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18792 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18793 },
18794 },
18795 &quot;keyValueData&quot;: { # The data included in a domain or series. # The data for scorecard key value.
18796 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
18797 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
18798 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
18799 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
18800 },
18801 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
18802 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
18803 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
18804 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
18805 },
18806 },
18807 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
18808 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18809 },
18810 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
18811 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
18812 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
18813 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
18814 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
18815 &quot;sheetId&quot;: 42, # The sheet this range is on.
18816 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
18817 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
18818 },
18819 ],
18820 },
18821 },
18822 &quot;numberFormatSource&quot;: &quot;A String&quot;, # The number format source used in the scorecard chart. This field is optional.
18823 &quot;keyValueFormat&quot;: { # Formatting options for key value. # Formatting options for key value.
18824 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for key value.
18825 &quot;bold&quot;: True or False, # True if the text is bold.
18826 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
18827 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
18828 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18829 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18830 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18831 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18832 },
18833 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
18834 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18835 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18836 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18837 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18838 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18839 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18840 },
18841 },
18842 &quot;italic&quot;: True or False, # True if the text is italicized.
18843 &quot;underline&quot;: True or False, # True if the text is underlined.
18844 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
18845 &quot;fontSize&quot;: 42, # The size of the font.
18846 },
18847 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of key value. This field is optional. If not specified, default positioning is used.
18848 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
18849 },
18850 },
18851 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for key and baseline chart data in scorecard chart. This field is not supported for data source charts. Use the ChartData.aggregateType field of the key_value_data or baseline_value_data instead for data source charts. This field is optional.
18852 },
18853 &quot;sortSpecs&quot;: [ # The order to sort the chart data by. Only a single sort spec is supported. Only supported for data source charts.
18854 { # A sort order associated with a specific column or row.
18855 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
18856 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18857 },
18858 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
18859 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
18860 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18861 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18862 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18863 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18864 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18865 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18866 },
18867 },
18868 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
18869 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18870 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18871 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18872 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18873 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18874 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18875 },
18876 },
18877 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
18878 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18879 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18880 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18881 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18882 },
18883 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
18884 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
18885 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18886 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18887 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18888 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18889 },
18890 },
18891 ],
18892 &quot;title&quot;: &quot;A String&quot;, # The title of the chart.
18893 &quot;titleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The title text format. Strikethrough and underline are not supported.
18894 &quot;bold&quot;: True or False, # True if the text is bold.
18895 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
18896 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
18897 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18898 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18899 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18900 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18901 },
18902 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
18903 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18904 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18905 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18906 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18907 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18908 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18909 },
18910 },
18911 &quot;italic&quot;: True or False, # True if the text is italicized.
18912 &quot;underline&quot;: True or False, # True if the text is underlined.
18913 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
18914 &quot;fontSize&quot;: 42, # The size of the font.
18915 },
18916 &quot;maximized&quot;: True or False, # True to make a chart fill the entire space in which it&#x27;s rendered with minimum padding. False to use the default padding. (Not applicable to Geo and Org charts.)
18917 &quot;dataSourceChartProperties&quot;: { # Properties of a data source chart. # If present, the field contains data source chart specific properties.
18918 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the data source that the chart is associated with.
18919 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
18920 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
18921 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
18922 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
18923 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
18924 },
18925 },
18926 &quot;waterfallChart&quot;: { # A waterfall chart. # A waterfall chart specification.
18927 &quot;hideConnectorLines&quot;: True or False, # True to hide connector lines between columns.
18928 &quot;connectorLineStyle&quot;: { # Properties that describe the style of a line. # The line style for the connector lines.
18929 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
18930 &quot;width&quot;: 42, # The thickness of the line, in px.
18931 },
18932 &quot;series&quot;: [ # The data this waterfall chart is visualizing.
18933 { # A single series of data for a waterfall chart.
18934 &quot;data&quot;: { # The data included in a domain or series. # The data being visualized in this series.
18935 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
18936 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
18937 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
18938 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
18939 },
18940 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
18941 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
18942 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
18943 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
18944 },
18945 },
18946 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
18947 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
18948 },
18949 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
18950 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
18951 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
18952 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
18953 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
18954 &quot;sheetId&quot;: 42, # The sheet this range is on.
18955 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
18956 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
18957 },
18958 ],
18959 },
18960 },
18961 &quot;subtotalColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all subtotal columns in this series.
18962 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
18963 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
18964 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18965 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18966 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18967 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18968 },
18969 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
18970 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18971 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18972 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18973 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18974 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18975 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18976 },
18977 },
18978 },
18979 &quot;negativeColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with negative values.
18980 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
18981 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
18982 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18983 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18984 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18985 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18986 },
18987 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
18988 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
18989 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
18990 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
18991 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
18992 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
18993 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
18994 },
18995 },
18996 },
18997 &quot;hideTrailingSubtotal&quot;: True or False, # True to hide the subtotal column from the end of the series. By default, a subtotal column will appear at the end of each series. Setting this field to true will hide that subtotal column for this series.
18998 &quot;customSubtotals&quot;: [ # Custom subtotal columns appearing in this series. The order in which subtotals are defined is not significant. Only one subtotal may be defined for each data point.
18999 { # A custom subtotal column for a waterfall chart series.
19000 &quot;subtotalIndex&quot;: 42, # The 0-based index of a data point within the series. If data_is_subtotal is true, the data point at this index is the subtotal. Otherwise, the subtotal appears after the data point with this index. A series can have multiple subtotals at arbitrary indices, but subtotals do not affect the indices of the data points. For example, if a series has three data points, their indices will always be 0, 1, and 2, regardless of how many subtotals exist on the series or what data points they are associated with.
19001 &quot;label&quot;: &quot;A String&quot;, # A label for the subtotal column.
19002 &quot;dataIsSubtotal&quot;: True or False, # True if the data point at subtotal_index is the subtotal. If false, the subtotal will be computed and appear after the data point.
19003 },
19004 ],
19005 &quot;positiveColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with positive values.
19006 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
19007 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
19008 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19009 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19010 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19011 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19012 },
19013 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
19014 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19015 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19016 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19017 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19018 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19019 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19020 },
19021 },
19022 },
19023 },
19024 ],
19025 &quot;domain&quot;: { # The domain of a waterfall chart. # The domain data (horizontal axis) for the waterfall chart.
19026 &quot;data&quot;: { # The data included in a domain or series. # The data of the WaterfallChartDomain.
19027 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19028 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19029 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19030 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19031 },
19032 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19033 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19034 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19035 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19036 },
19037 },
19038 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19039 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19040 },
19041 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19042 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19043 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19044 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19045 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19046 &quot;sheetId&quot;: 42, # The sheet this range is on.
19047 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19048 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19049 },
19050 ],
19051 },
19052 },
19053 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
19054 },
19055 &quot;firstValueIsTotal&quot;: True or False, # True to interpret the first value as a total.
19056 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type.
19057 },
19058 &quot;histogramChart&quot;: { # A histogram chart. A histogram chart groups data items into bins, displaying each bin as a column of stacked items. Histograms are used to display the distribution of a dataset. Each column of items represents a range into which those items fall. The number of bins can be chosen automatically or specified explicitly. # A histogram chart specification.
19059 &quot;series&quot;: [ # The series for a histogram may be either a single series of values to be bucketed or multiple series, each of the same length, containing the name of the series followed by the values to be bucketed for that series.
19060 { # A histogram series containing the series color and data.
19061 &quot;data&quot;: { # The data included in a domain or series. # The data for this histogram series.
19062 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19063 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19064 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19065 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19066 },
19067 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19068 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19069 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19070 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19071 },
19072 },
19073 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19074 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19075 },
19076 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19077 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19078 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19079 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19080 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19081 &quot;sheetId&quot;: 42, # The sheet this range is on.
19082 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19083 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19084 },
19085 ],
19086 },
19087 },
19088 &quot;barColorStyle&quot;: { # A color value. # The color of the column representing this series in each bucket. This field is optional. If bar_color is also set, this field takes precedence.
19089 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19090 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19091 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19092 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19093 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19094 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19095 },
19096 },
19097 &quot;barColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column representing this series in each bucket. This field is optional.
19098 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19099 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19100 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19101 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19102 },
19103 },
19104 ],
19105 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
19106 &quot;showItemDividers&quot;: True or False, # Whether horizontal divider lines should be displayed between items in each column.
19107 &quot;outlierPercentile&quot;: 3.14, # The outlier percentile is used to ensure that outliers do not adversely affect the calculation of bucket sizes. For example, setting an outlier percentile of 0.05 indicates that the top and bottom 5% of values when calculating buckets. The values are still included in the chart, they will be added to the first or last buckets instead of their own buckets. Must be between 0.0 and 0.5.
19108 &quot;bucketSize&quot;: 3.14, # By default the bucket size (the range of values stacked in a single column) is chosen automatically, but it may be overridden here. E.g., A bucket size of 1.5 results in buckets from 0 - 1.5, 1.5 - 3.0, etc. Cannot be negative. This field is optional.
19109 },
19110 &quot;hiddenDimensionStrategy&quot;: &quot;A String&quot;, # Determines how the charts will use hidden rows or columns.
19111 &quot;bubbleChart&quot;: { # A bubble chart. # A bubble chart specification.
19112 &quot;bubbleMaxRadiusSize&quot;: 42, # The max radius size of the bubbles, in pixels. If specified, the field must be a positive value.
19113 &quot;bubbleSizes&quot;: { # The data included in a domain or series. # The data contianing the bubble sizes. Bubble sizes are used to draw the bubbles at different sizes relative to each other. If specified, group_ids must also be specified. This field is optional.
19114 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19115 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19116 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19117 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19118 },
19119 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19120 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19121 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19122 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19123 },
19124 },
19125 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19126 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19127 },
19128 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19129 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19130 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19131 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19132 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19133 &quot;sheetId&quot;: 42, # The sheet this range is on.
19134 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19135 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19136 },
19137 ],
19138 },
19139 },
19140 &quot;groupIds&quot;: { # The data included in a domain or series. # The data containing the bubble group IDs. All bubbles with the same group ID are drawn in the same color. If bubble_sizes is specified then this field must also be specified but may contain blank values. This field is optional.
19141 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19142 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19143 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19144 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19145 },
19146 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19147 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19148 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19149 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19150 },
19151 },
19152 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19153 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19154 },
19155 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19156 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19157 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19158 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19159 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19160 &quot;sheetId&quot;: 42, # The sheet this range is on.
19161 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19162 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19163 },
19164 ],
19165 },
19166 },
19167 &quot;bubbleOpacity&quot;: 3.14, # The opacity of the bubbles between 0 and 1.0. 0 is fully transparent and 1 is fully opaque.
19168 &quot;bubbleLabels&quot;: { # The data included in a domain or series. # The data containing the bubble labels. These do not need to be unique.
19169 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19170 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19171 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19172 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19173 },
19174 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19175 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19176 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19177 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19178 },
19179 },
19180 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19181 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19182 },
19183 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19184 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19185 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19186 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19187 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19188 &quot;sheetId&quot;: 42, # The sheet this range is on.
19189 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19190 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19191 },
19192 ],
19193 },
19194 },
19195 &quot;bubbleBorderColorStyle&quot;: { # A color value. # The bubble border color. If bubble_border_color is also set, this field takes precedence.
19196 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19197 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19198 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19199 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19200 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19201 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19202 },
19203 },
19204 &quot;domain&quot;: { # The data included in a domain or series. # The data containing the bubble x-values. These values locate the bubbles in the chart horizontally.
19205 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19206 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19207 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19208 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19209 },
19210 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19211 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19212 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19213 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19214 },
19215 },
19216 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19217 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19218 },
19219 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19220 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19221 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19222 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19223 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19224 &quot;sheetId&quot;: 42, # The sheet this range is on.
19225 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19226 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19227 },
19228 ],
19229 },
19230 },
19231 &quot;bubbleTextStyle&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text inside the bubbles. Strikethrough and underline are not supported.
19232 &quot;bold&quot;: True or False, # True if the text is bold.
19233 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
19234 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
19235 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19236 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19237 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19238 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19239 },
19240 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
19241 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19242 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19243 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19244 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19245 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19246 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19247 },
19248 },
19249 &quot;italic&quot;: True or False, # True if the text is italicized.
19250 &quot;underline&quot;: True or False, # True if the text is underlined.
19251 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
19252 &quot;fontSize&quot;: 42, # The size of the font.
19253 },
19254 &quot;bubbleMinRadiusSize&quot;: 42, # The minimum radius size of the bubbles, in pixels. If specific, the field must be a positive value.
19255 &quot;bubbleBorderColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The bubble border color.
19256 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19257 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19258 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19259 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19260 },
19261 &quot;series&quot;: { # The data included in a domain or series. # The data contianing the bubble y-values. These values locate the bubbles in the chart vertically.
19262 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19263 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19264 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19265 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19266 },
19267 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19268 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19269 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19270 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19271 },
19272 },
19273 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19274 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19275 },
19276 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19277 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19278 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19279 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19280 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19281 &quot;sheetId&quot;: 42, # The sheet this range is on.
19282 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19283 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19284 },
19285 ],
19286 },
19287 },
19288 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the chart should be drawn.
19289 },
19290 &quot;subtitle&quot;: &quot;A String&quot;, # The subtitle of the chart.
19291 &quot;pieChart&quot;: { # A pie chart. # A pie chart specification.
19292 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the pie chart should be drawn.
19293 &quot;threeDimensional&quot;: True or False, # True if the pie is three dimensional.
19294 &quot;domain&quot;: { # The data included in a domain or series. # The data that covers the domain of the pie chart.
19295 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19296 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19297 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19298 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19299 },
19300 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19301 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19302 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19303 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19304 },
19305 },
19306 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19307 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19308 },
19309 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19310 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19311 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19312 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19313 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19314 &quot;sheetId&quot;: 42, # The sheet this range is on.
19315 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19316 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19317 },
19318 ],
19319 },
19320 },
19321 &quot;pieHole&quot;: 3.14, # The size of the hole in the pie chart.
19322 &quot;series&quot;: { # The data included in a domain or series. # The data that covers the one and only series of the pie chart.
19323 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19324 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19325 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19326 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19327 },
19328 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19329 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19330 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19331 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19332 },
19333 },
19334 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19335 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19336 },
19337 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19338 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19339 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19340 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19341 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19342 &quot;sheetId&quot;: 42, # The sheet this range is on.
19343 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19344 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19345 },
19346 ],
19347 },
19348 },
19349 },
19350 &quot;treemapChart&quot;: { # A Treemap chart. # A treemap chart specification.
19351 &quot;headerColorStyle&quot;: { # A color value. # The background color for header cells. If header_color is also set, this field takes precedence.
19352 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19353 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19354 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19355 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19356 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19357 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19358 },
19359 },
19360 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data the contains the treemap cells&#x27; parent labels.
19361 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19362 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19363 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19364 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19365 },
19366 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19367 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19368 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19369 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19370 },
19371 },
19372 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19373 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19374 },
19375 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19376 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19377 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19378 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19379 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19380 &quot;sheetId&quot;: 42, # The sheet this range is on.
19381 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19382 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19383 },
19384 ],
19385 },
19386 },
19387 &quot;minValue&quot;: 3.14, # The minimum possible data value. Cells with values less than this will have the same color as cells with this value. If not specified, defaults to the actual minimum value from color_data, or the minimum value from size_data if color_data is not specified.
19388 &quot;hintedLevels&quot;: 42, # The number of additional data levels beyond the labeled levels to be shown on the treemap chart. These levels are not interactive and are shown without their labels. Defaults to 0 if not specified.
19389 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for header cells.
19390 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19391 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19392 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19393 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19394 },
19395 &quot;maxValue&quot;: 3.14, # The maximum possible data value. Cells with values greater than this will have the same color as cells with this value. If not specified, defaults to the actual maximum value from color_data, or the maximum value from size_data if color_data is not specified.
19396 &quot;sizeData&quot;: { # The data included in a domain or series. # The data that determines the size of each treemap data cell. This data is expected to be numeric. The cells corresponding to non-numeric or missing data will not be rendered. If color_data is not specified, this data is used to determine data cell background colors as well.
19397 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19398 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19399 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19400 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19401 },
19402 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19403 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19404 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19405 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19406 },
19407 },
19408 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19409 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19410 },
19411 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19412 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19413 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19414 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19415 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19416 &quot;sheetId&quot;: 42, # The sheet this range is on.
19417 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19418 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19419 },
19420 ],
19421 },
19422 },
19423 &quot;labels&quot;: { # The data included in a domain or series. # The data that contains the treemap cell labels.
19424 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19425 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19426 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19427 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19428 },
19429 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19430 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19431 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19432 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19433 },
19434 },
19435 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19436 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19437 },
19438 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19439 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19440 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19441 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19442 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19443 &quot;sheetId&quot;: 42, # The sheet this range is on.
19444 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19445 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19446 },
19447 ],
19448 },
19449 },
19450 &quot;colorData&quot;: { # The data included in a domain or series. # The data that determines the background color of each treemap data cell. This field is optional. If not specified, size_data is used to determine background colors. If specified, the data is expected to be numeric. color_scale will determine how the values in this data map to data cell background colors.
19451 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19452 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19453 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19454 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19455 },
19456 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19457 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19458 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19459 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19460 },
19461 },
19462 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19463 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19464 },
19465 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19466 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19467 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19468 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19469 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19470 &quot;sheetId&quot;: 42, # The sheet this range is on.
19471 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19472 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19473 },
19474 ],
19475 },
19476 },
19477 &quot;colorScale&quot;: { # A color scale for a treemap chart. # The color scale for data cells in the treemap chart. Data cells are assigned colors based on their color values. These color values come from color_data, or from size_data if color_data is not specified. Cells with color values less than or equal to min_value will have minValueColor as their background color. Cells with color values greater than or equal to max_value will have maxValueColor as their background color. Cells with color values between min_value and max_value will have background colors on a gradient between minValueColor and maxValueColor, the midpoint of the gradient being midValueColor. Cells with missing or non-numeric color values will have noDataColor as their background color.
19478 &quot;midValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified.
19479 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19480 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19481 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19482 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19483 },
19484 &quot;maxValueColorStyle&quot;: { # A color value. # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified. If max_value_color is also set, this field takes precedence.
19485 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19486 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19487 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19488 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19489 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19490 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19491 },
19492 },
19493 &quot;minValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified.
19494 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19495 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19496 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19497 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19498 },
19499 &quot;noDataColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified.
19500 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19501 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19502 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19503 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19504 },
19505 &quot;noDataColorStyle&quot;: { # A color value. # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified. If no_data_color is also set, this field takes precedence.
19506 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19507 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19508 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19509 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19510 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19511 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19512 },
19513 },
19514 &quot;midValueColorStyle&quot;: { # A color value. # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified. If mid_value_color is also set, this field takes precedence.
19515 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19516 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19517 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19518 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19519 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19520 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19521 },
19522 },
19523 &quot;maxValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified.
19524 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19525 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19526 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19527 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19528 },
19529 &quot;minValueColorStyle&quot;: { # A color value. # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified. If min_value_color is also set, this field takes precedence.
19530 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19531 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19532 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19533 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19534 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19535 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19536 },
19537 },
19538 },
19539 &quot;hideTooltips&quot;: True or False, # True to hide tooltips.
19540 &quot;levels&quot;: 42, # The number of data levels to show on the treemap chart. These levels are interactive and are shown with their labels. Defaults to 2 if not specified.
19541 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format for all labels on the chart.
19542 &quot;bold&quot;: True or False, # True if the text is bold.
19543 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
19544 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
19545 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19546 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19547 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19548 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19549 },
19550 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
19551 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19552 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19553 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19554 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19555 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19556 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19557 },
19558 },
19559 &quot;italic&quot;: True or False, # True if the text is italicized.
19560 &quot;underline&quot;: True or False, # True if the text is underlined.
19561 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
19562 &quot;fontSize&quot;: 42, # The size of the font.
19563 },
19564 },
19565 &quot;titleTextPosition&quot;: { # Position settings for text. # The title text position. This field is optional.
19566 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
19567 },
19568 &quot;altText&quot;: &quot;A String&quot;, # The alternative text that describes the chart. This is often used for accessibility.
19569 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the entire chart. Not applicable to Org charts. If background_color is also set, this field takes precedence.
19570 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19571 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19572 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19573 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19574 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19575 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19576 },
19577 },
19578 &quot;filterSpecs&quot;: [ # The filters applied to the source data of the chart. Only supported for data source charts.
19579 { # The filter criteria associated with a specific column.
19580 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
19581 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19582 },
19583 &quot;columnIndex&quot;: 42, # The column index.
19584 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
19585 &quot;hiddenValues&quot;: [ # Values that should be hidden.
19586 &quot;A String&quot;,
19587 ],
19588 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
19589 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19590 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19591 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19592 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19593 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19594 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19595 },
19596 },
19597 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
19598 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
19599 { # The value of the condition.
19600 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
19601 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
19602 },
19603 ],
19604 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
19605 },
19606 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
19607 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19608 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19609 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19610 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19611 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19612 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19613 },
19614 },
19615 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
19616 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19617 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19618 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19619 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19620 },
19621 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
19622 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19623 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19624 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19625 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19626 },
19627 },
19628 },
19629 ],
19630 &quot;candlestickChart&quot;: { # A candlestick chart. # A candlestick chart specification.
19631 &quot;domain&quot;: { # The domain of a CandlestickChart. # The domain data (horizontal axis) for the candlestick chart. String data will be treated as discrete labels, other data will be treated as continuous values.
19632 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
19633 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickDomain.
19634 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19635 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19636 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19637 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19638 },
19639 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19640 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19641 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19642 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19643 },
19644 },
19645 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19646 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19647 },
19648 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19649 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19650 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19651 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19652 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19653 &quot;sheetId&quot;: 42, # The sheet this range is on.
19654 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19655 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19656 },
19657 ],
19658 },
19659 },
19660 },
19661 &quot;data&quot;: [ # The Candlestick chart data. Only one CandlestickData is supported.
19662 { # The Candlestick chart data, each containing the low, open, close, and high values for a series.
19663 &quot;openSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the open/initial value for each candle. This is the bottom of the candle body. If less than the close value the candle will be filled. Otherwise the candle will be hollow.
19664 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
19665 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19666 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19667 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19668 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19669 },
19670 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19671 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19672 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19673 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19674 },
19675 },
19676 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19677 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19678 },
19679 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19680 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19681 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19682 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19683 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19684 &quot;sheetId&quot;: 42, # The sheet this range is on.
19685 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19686 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19687 },
19688 ],
19689 },
19690 },
19691 },
19692 &quot;highSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the high/maximum value for each candle. This is the top of the candle&#x27;s center line.
19693 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
19694 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19695 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19696 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19697 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19698 },
19699 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19700 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19701 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19702 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19703 },
19704 },
19705 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19706 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19707 },
19708 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19709 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19710 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19711 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19712 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19713 &quot;sheetId&quot;: 42, # The sheet this range is on.
19714 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19715 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19716 },
19717 ],
19718 },
19719 },
19720 },
19721 &quot;lowSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the low/minimum value for each candle. This is the bottom of the candle&#x27;s center line.
19722 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
19723 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19724 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19725 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19726 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19727 },
19728 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19729 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19730 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19731 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19732 },
19733 },
19734 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19735 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19736 },
19737 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19738 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19739 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19740 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19741 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19742 &quot;sheetId&quot;: 42, # The sheet this range is on.
19743 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19744 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19745 },
19746 ],
19747 },
19748 },
19749 },
19750 &quot;closeSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the close/final value for each candle. This is the top of the candle body. If greater than the open value the candle will be filled. Otherwise the candle will be hollow.
19751 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
19752 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19753 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19754 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19755 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19756 },
19757 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19758 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19759 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19760 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19761 },
19762 },
19763 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19764 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19765 },
19766 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19767 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19768 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19769 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19770 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19771 &quot;sheetId&quot;: 42, # The sheet this range is on.
19772 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19773 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19774 },
19775 ],
19776 },
19777 },
19778 },
19779 },
19780 ],
19781 },
19782 &quot;basicChart&quot;: { # The specification for a basic chart. See BasicChartType for the list of charts this supports. # A basic chart specification, can be one of many kinds of charts. See BasicChartType for the list of all charts this supports.
19783 &quot;domains&quot;: [ # The domain of data this is charting. Only a single domain is supported.
19784 { # The domain of a chart. For example, if charting stock prices over time, this would be the date.
19785 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
19786 &quot;domain&quot;: { # The data included in a domain or series. # The data of the domain. For example, if charting stock prices over time, this is the data representing the dates.
19787 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19788 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19789 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19790 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19791 },
19792 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19793 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19794 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19795 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19796 },
19797 },
19798 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19799 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19800 },
19801 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19802 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19803 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19804 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19805 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19806 &quot;sheetId&quot;: 42, # The sheet this range is on.
19807 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19808 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19809 },
19810 ],
19811 },
19812 },
19813 },
19814 ],
19815 &quot;compareMode&quot;: &quot;A String&quot;, # The behavior of tooltips and data highlighting when hovering on data and chart area.
19816 &quot;axis&quot;: [ # The axis on the chart.
19817 { # An axis of the chart. A chart may not have more than one axis per axis position.
19818 &quot;title&quot;: &quot;A String&quot;, # The title of this axis. If set, this overrides any title inferred from headers of the data.
19819 &quot;position&quot;: &quot;A String&quot;, # The position of this axis.
19820 &quot;titleTextPosition&quot;: { # Position settings for text. # The axis title text position.
19821 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
19822 },
19823 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the title. Only valid if the axis is not associated with the domain.
19824 &quot;bold&quot;: True or False, # True if the text is bold.
19825 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
19826 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
19827 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19828 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19829 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19830 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19831 },
19832 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
19833 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19834 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19835 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19836 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19837 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19838 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19839 },
19840 },
19841 &quot;italic&quot;: True or False, # True if the text is italicized.
19842 &quot;underline&quot;: True or False, # True if the text is underlined.
19843 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
19844 &quot;fontSize&quot;: 42, # The size of the font.
19845 },
19846 &quot;viewWindowOptions&quot;: { # The options that define a &quot;view window&quot; for a chart (such as the visible values in an axis). # The view window options for this axis.
19847 &quot;viewWindowMax&quot;: 3.14, # The maximum numeric value to be shown in this view window. If unset, will automatically determine a maximum value that looks good for the data.
19848 &quot;viewWindowMin&quot;: 3.14, # The minimum numeric value to be shown in this view window. If unset, will automatically determine a minimum value that looks good for the data.
19849 &quot;viewWindowMode&quot;: &quot;A String&quot;, # The view window&#x27;s mode.
19850 },
19851 },
19852 ],
19853 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
19854 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type for charts that support vertical stacking. Applies to Area, Bar, Column, Combo, and Stepped Area charts.
19855 &quot;threeDimensional&quot;: True or False, # True to make the chart 3D. Applies to Bar and Column charts.
19856 &quot;interpolateNulls&quot;: True or False, # If some values in a series are missing, gaps may appear in the chart (e.g, segments of lines in a line chart will be missing). To eliminate these gaps set this to true. Applies to Line, Area, and Combo charts.
19857 &quot;series&quot;: [ # The data this chart is visualizing.
19858 { # A single series of data in a chart. For example, if charting stock prices over time, multiple series may exist, one for the &quot;Open Price&quot;, &quot;High Price&quot;, &quot;Low Price&quot; and &quot;Close Price&quot;.
19859 &quot;series&quot;: { # The data included in a domain or series. # The data being visualized in this chart series.
19860 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
19861 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
19862 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
19863 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
19864 },
19865 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
19866 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
19867 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
19868 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
19869 },
19870 },
19871 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
19872 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
19873 },
19874 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
19875 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
19876 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
19877 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
19878 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
19879 &quot;sheetId&quot;: 42, # The sheet this range is on.
19880 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
19881 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
19882 },
19883 ],
19884 },
19885 },
19886 &quot;type&quot;: &quot;A String&quot;, # The type of this series. Valid only if the chartType is COMBO. Different types will change the way the series is visualized. Only LINE, AREA, and COLUMN are supported.
19887 &quot;targetAxis&quot;: &quot;A String&quot;, # The minor axis that will specify the range of values for this series. For example, if charting stocks over time, the &quot;Volume&quot; series may want to be pinned to the right with the prices pinned to the left, because the scale of trading volume is different than the scale of prices. It is an error to specify an axis that isn&#x27;t a valid minor axis for the chart&#x27;s type.
19888 &quot;colorStyle&quot;: { # A color value. # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used. If color is also set, this field takes precedence.
19889 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19890 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19891 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19892 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19893 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19894 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19895 },
19896 },
19897 &quot;lineStyle&quot;: { # Properties that describe the style of a line. # The line style of this series. Valid only if the chartType is AREA, LINE, or SCATTER. COMBO charts are also supported if the series chart type is AREA or LINE.
19898 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
19899 &quot;width&quot;: 42, # The thickness of the line, in px.
19900 },
19901 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used.
19902 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19903 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19904 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19905 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19906 },
19907 },
19908 ],
19909 &quot;chartType&quot;: &quot;A String&quot;, # The type of the chart.
19910 &quot;headerCount&quot;: 42, # The number of rows or columns in the data that are &quot;headers&quot;. If not set, Google Sheets will guess how many rows are headers based on the data. (Note that BasicChartAxis.title may override the axis title inferred from the header values.)
19911 &quot;lineSmoothing&quot;: True or False, # Gets whether all lines should be rendered smooth or straight by default. Applies to Line charts.
19912 },
19913 &quot;subtitleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The subtitle text format. Strikethrough and underline are not supported.
19914 &quot;bold&quot;: True or False, # True if the text is bold.
19915 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
19916 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
19917 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19918 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19919 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19920 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19921 },
19922 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
19923 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19924 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19925 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19926 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19927 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19928 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19929 },
19930 },
19931 &quot;italic&quot;: True or False, # True if the text is italicized.
19932 &quot;underline&quot;: True or False, # True if the text is underlined.
19933 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
19934 &quot;fontSize&quot;: 42, # The size of the font.
19935 },
19936 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the entire chart. Not applicable to Org charts.
19937 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19938 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19939 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19940 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19941 },
19942 },
19943 &quot;chartId&quot;: 42, # The ID of the chart.
19944 },
19945 ],
19946 &quot;slicers&quot;: [ # The slicers on this sheet.
19947 { # A slicer in a sheet.
19948 &quot;slicerId&quot;: 42, # The ID of the slicer.
19949 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the slicer. Note that slicer can be positioned only on existing sheet. Also, width and height of slicer can be automatically adjusted to keep it within permitted limits.
19950 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
19951 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
19952 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
19953 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
19954 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
19955 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
19956 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
19957 },
19958 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
19959 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
19960 },
19961 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
19962 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
19963 },
19964 &quot;spec&quot;: { # The specifications of a slicer. # The specification of the slicer.
19965 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The filtering criteria of the slicer.
19966 &quot;hiddenValues&quot;: [ # Values that should be hidden.
19967 &quot;A String&quot;,
19968 ],
19969 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
19970 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19971 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19972 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19973 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19974 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19975 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19976 },
19977 },
19978 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
19979 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
19980 { # The value of the condition.
19981 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
19982 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
19983 },
19984 ],
19985 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
19986 },
19987 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
19988 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
19989 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
19990 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19991 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19992 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
19993 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
19994 },
19995 },
19996 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
19997 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
19998 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
19999 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20000 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20001 },
20002 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
20003 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20004 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20005 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20006 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20007 },
20008 },
20009 &quot;title&quot;: &quot;A String&quot;, # The title of the slicer.
20010 &quot;dataRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The data range of the slicer.
20011 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20012 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20013 &quot;sheetId&quot;: 42, # The sheet this range is on.
20014 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20015 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20016 },
20017 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format of title in the slicer.
20018 &quot;bold&quot;: True or False, # True if the text is bold.
20019 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
20020 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
20021 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20022 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20023 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20024 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20025 },
20026 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
20027 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20028 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20029 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20030 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20031 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20032 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20033 },
20034 },
20035 &quot;italic&quot;: True or False, # True if the text is italicized.
20036 &quot;underline&quot;: True or False, # True if the text is underlined.
20037 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
20038 &quot;fontSize&quot;: 42, # The size of the font.
20039 },
20040 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the slicer.
20041 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20042 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20043 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20044 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20045 },
20046 &quot;columnIndex&quot;: 42, # The column index in the data table on which the filter is applied to.
20047 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the slicer. If background_color is also set, this field takes precedence.
20048 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20049 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20050 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20051 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20052 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20053 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20054 },
20055 },
20056 &quot;applyToPivotTables&quot;: True or False, # True if the filter should apply to pivot tables. If not set, default to `True`.
20057 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of title in the slicer. If unspecified, defaults to `LEFT`
20058 },
20059 },
20060 ],
20061 &quot;basicFilter&quot;: { # The default filter associated with a sheet. # The filter on this sheet, if any.
20062 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the filter covers.
20063 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20064 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20065 &quot;sheetId&quot;: 42, # The sheet this range is on.
20066 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20067 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20068 },
20069 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
20070 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
20071 &quot;hiddenValues&quot;: [ # Values that should be hidden.
20072 &quot;A String&quot;,
20073 ],
20074 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
20075 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20076 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20077 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20078 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20079 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20080 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20081 },
20082 },
20083 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
20084 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
20085 { # The value of the condition.
20086 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
20087 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
20088 },
20089 ],
20090 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
20091 },
20092 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
20093 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20094 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20095 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20096 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20097 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20098 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20099 },
20100 },
20101 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
20102 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20103 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20104 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20105 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20106 },
20107 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
20108 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20109 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20110 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20111 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20112 },
20113 },
20114 },
20115 &quot;filterSpecs&quot;: [ # The filter criteria per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
20116 { # The filter criteria associated with a specific column.
20117 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
20118 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
20119 },
20120 &quot;columnIndex&quot;: 42, # The column index.
20121 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
20122 &quot;hiddenValues&quot;: [ # Values that should be hidden.
20123 &quot;A String&quot;,
20124 ],
20125 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
20126 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20127 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20128 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20129 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20130 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20131 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20132 },
20133 },
20134 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
20135 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
20136 { # The value of the condition.
20137 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
20138 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
20139 },
20140 ],
20141 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
20142 },
20143 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
20144 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20145 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20146 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20147 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20148 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20149 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20150 },
20151 },
20152 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
20153 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20154 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20155 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20156 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20157 },
20158 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
20159 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20160 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20161 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20162 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20163 },
20164 },
20165 },
20166 ],
20167 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
20168 { # A sort order associated with a specific column or row.
20169 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
20170 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
20171 },
20172 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
20173 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
20174 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20175 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20176 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20177 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20178 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20179 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20180 },
20181 },
20182 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
20183 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20184 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20185 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20186 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20187 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20188 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20189 },
20190 },
20191 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
20192 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20193 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20194 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20195 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20196 },
20197 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
20198 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
20199 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20200 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20201 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20202 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20203 },
20204 },
20205 ],
20206 },
20207 &quot;merges&quot;: [ # The ranges that are merged together.
20208 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
20209 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20210 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20211 &quot;sheetId&quot;: 42, # The sheet this range is on.
20212 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20213 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20214 },
20215 ],
20216 &quot;properties&quot;: { # Properties of a sheet. # The properties of the sheet.
20217 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
20218 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
20219 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
20220 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
20221 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
20222 &quot;rowCount&quot;: 42, # The number of rows in the grid.
20223 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
20224 &quot;columnCount&quot;: 42, # The number of columns in the grid.
20225 },
20226 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
20227 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20228 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20229 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20230 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20231 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20232 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20233 },
20234 },
20235 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
20236 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
20237 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
20238 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
20239 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20240 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20241 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20242 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20243 },
20244 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
20245 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
20246 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
20247 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
20248 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
20249 { # A column in a data source.
20250 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
20251 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
20252 },
20253 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
20254 },
20255 ],
20256 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
20257 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
20258 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
20259 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
20260 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
20261 },
20262 },
20263 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
20264 },
20265 &quot;protectedRanges&quot;: [ # The protected ranges in this sheet.
20266 { # A protected range.
20267 &quot;requestingUserCanEdit&quot;: True or False, # True if the user who requested this protected range can edit the protected area. This field is read-only.
20268 &quot;protectedRangeId&quot;: 42, # The ID of the protected range. This field is read-only.
20269 &quot;description&quot;: &quot;A String&quot;, # The description of this protected range.
20270 &quot;warningOnly&quot;: True or False, # True if this protected range will show a warning when editing. Warning-based protection means that every user can edit data in the protected range, except editing will prompt a warning asking the user to confirm the edit. When writing: if this field is true, then editors is ignored. Additionally, if this field is changed from true to false and the `editors` field is not set (nor included in the field mask), then the editors will be set to all the editors in the document.
20271 &quot;editors&quot;: { # The editors of a protected range. # The users and groups with edit access to the protected range. This field is only visible to users with edit access to the protected range and the document. Editors are not supported with warning_only protection.
20272 &quot;domainUsersCanEdit&quot;: True or False, # True if anyone in the document&#x27;s domain has edit access to the protected range. Domain protection is only supported on documents within a domain.
20273 &quot;groups&quot;: [ # The email addresses of groups with edit access to the protected range.
20274 &quot;A String&quot;,
20275 ],
20276 &quot;users&quot;: [ # The email addresses of users with edit access to the protected range.
20277 &quot;A String&quot;,
20278 ],
20279 },
20280 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this protected range is backed by, if any. When writing, only one of range or named_range_id may be set.
20281 &quot;unprotectedRanges&quot;: [ # The list of unprotected ranges within a protected sheet. Unprotected ranges are only supported on protected sheets.
20282 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
20283 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20284 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20285 &quot;sheetId&quot;: 42, # The sheet this range is on.
20286 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20287 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20288 },
20289 ],
20290 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range that is being protected. The range may be fully unbounded, in which case this is considered a protected sheet. When writing, only one of range or named_range_id may be set.
20291 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20292 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20293 &quot;sheetId&quot;: 42, # The sheet this range is on.
20294 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20295 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20296 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020297 },
20298 ],
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070020299 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020300 ],
20301 &quot;properties&quot;: { # Properties of a spreadsheet. # Overall properties of a spreadsheet.
20302 &quot;timeZone&quot;: &quot;A String&quot;, # The time zone of the spreadsheet, in CLDR format such as `America/New_York`. If the time zone isn&#x27;t recognized, this may be a custom time zone such as `GMT-07:00`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020303 &quot;defaultFormat&quot;: { # The format of a cell. # The default format of all cells in the spreadsheet. CellData.effectiveFormat will not be set if the cell&#x27;s format is equal to this default format. This field is read-only.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020304 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
20305 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
20306 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
20307 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
20308 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
20309 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20310 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20311 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20312 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20313 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20314 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20315 },
20316 },
20317 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
20318 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20319 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20320 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20321 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20322 },
20323 },
20324 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
20325 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
20326 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
20327 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
20328 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20329 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20330 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20331 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20332 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20333 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20334 },
20335 },
20336 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
20337 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20338 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20339 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20340 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20341 },
20342 },
20343 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
20344 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
20345 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
20346 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
20347 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20348 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20349 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20350 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20351 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20352 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20353 },
20354 },
20355 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
20356 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20357 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20358 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20359 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20360 },
20361 },
20362 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
20363 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
20364 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
20365 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
20366 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20367 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20368 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20369 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20370 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20371 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20372 },
20373 },
20374 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
20375 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20376 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20377 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20378 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20379 },
20380 },
20381 },
20382 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
20383 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20384 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20385 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20386 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20387 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20388 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20389 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020390 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020391 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
20392 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020393 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
20394 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
20395 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
20396 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020397 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
20398 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
20399 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
20400 &quot;bold&quot;: True or False, # True if the text is bold.
20401 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
20402 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020403 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20404 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020405 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20406 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020407 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020408 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
20409 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20410 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20411 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20412 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20413 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20414 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20415 },
20416 },
20417 &quot;italic&quot;: True or False, # True if the text is italicized.
20418 &quot;underline&quot;: True or False, # True if the text is underlined.
20419 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
20420 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020421 },
20422 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
20423 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
20424 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020425 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020426 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
20427 &quot;bottom&quot;: 42, # The bottom padding of the cell.
20428 &quot;top&quot;: 42, # The top padding of the cell.
20429 &quot;right&quot;: 42, # The right padding of the cell.
20430 &quot;left&quot;: 42, # The left padding of the cell.
20431 },
20432 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
20433 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20434 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20435 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20436 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20437 },
20438 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020439 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020440 &quot;locale&quot;: &quot;A String&quot;, # The locale of the spreadsheet in one of the following formats: * an ISO 639-1 language code such as `en` * an ISO 639-2 language code such as `fil`, if no 639-1 code exists * a combination of the ISO language code and country code, such as `en_US` Note: when updating this field, not all locales/languages are supported.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020441 &quot;iterativeCalculationSettings&quot;: { # Settings to control how circular dependencies are resolved with iterative calculation. # Determines whether and how circular references are resolved with iterative calculation. Absence of this field means that circular references result in calculation errors.
20442 &quot;maxIterations&quot;: 42, # When iterative calculation is enabled, the maximum number of calculation rounds to perform.
20443 &quot;convergenceThreshold&quot;: 3.14, # When iterative calculation is enabled and successive results differ by less than this threshold value, the calculation rounds stop.
20444 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020445 &quot;title&quot;: &quot;A String&quot;, # The title of the spreadsheet.
20446 &quot;spreadsheetTheme&quot;: { # Represents spreadsheet theme # Theme applied to the spreadsheet.
20447 &quot;themeColors&quot;: [ # The spreadsheet theme color pairs. To update you must provide all theme color pairs.
20448 { # A pair mapping a spreadsheet theme color type to the concrete color it represents.
20449 &quot;colorType&quot;: &quot;A String&quot;, # The type of the spreadsheet theme color.
20450 &quot;color&quot;: { # A color value. # The concrete color corresponding to the theme color type.
20451 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20452 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20453 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20454 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20455 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20456 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20457 },
20458 },
20459 },
20460 ],
20461 &quot;primaryFontFamily&quot;: &quot;A String&quot;, # Name of the primary font family.
20462 },
20463 &quot;autoRecalc&quot;: &quot;A String&quot;, # The amount of time to wait before volatile functions are recalculated.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020464 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020465 &quot;dataSourceSchedules&quot;: [ # Output only. A list of data source refresh schedules.
20466 { # Schedule for refreshing the data source. Data sources in the spreadsheet are refreshed within a time interval. You can specify the start time by clicking the Scheduled Refresh button in the Sheets editor, but the interval is fixed at 4 hours. For example, if you specify a start time of 8am , the refresh will take place between 8am and 12pm every day.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020467 &quot;weeklySchedule&quot;: { # A weekly schedule for data to refresh on specific days in a given time interval. # Weekly refresh schedule.
20468 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020469 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020470 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020471 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
20472 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070020473 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020474 &quot;daysOfWeek&quot;: [ # Days of the week to refresh. At least one day must be specified.
20475 &quot;A String&quot;,
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070020476 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020477 },
20478 &quot;refreshScope&quot;: &quot;A String&quot;, # The scope of the refresh. Must be ALL_DATA_SOURCES.
20479 &quot;dailySchedule&quot;: { # A schedule for data to refresh every day in a given time interval. # Daily refresh schedule.
20480 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020481 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020482 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020483 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
20484 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020485 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070020486 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020487 &quot;enabled&quot;: True or False, # True if the refresh schedule is enabled, or false otherwise.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020488 &quot;monthlySchedule&quot;: { # A monthly schedule for data to refresh on specific days in the month in a given time interval. # Monthly refresh schedule.
20489 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
20490 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
20491 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
20492 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
20493 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070020494 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020495 &quot;daysOfMonth&quot;: [ # Days of the month to refresh. Only 1-28 are supported, mapping to the 1st to the 28th day. At lesat one day must be specified.
20496 42,
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020497 ],
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070020498 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020499 &quot;nextRun&quot;: { # Represents a time interval, encoded as a Timestamp start (inclusive) and a Timestamp end (exclusive). The start must be less than or equal to the end. When the start equals the end, the interval is empty (matches no time). When both start and end are unspecified, the interval matches any time. # Output only. The time interval of the next run.
20500 &quot;endTime&quot;: &quot;A String&quot;, # Optional. Exclusive end of the interval. If specified, a Timestamp matching this interval will have to be before the end.
20501 &quot;startTime&quot;: &quot;A String&quot;, # Optional. Inclusive start of the interval. If specified, a Timestamp matching this interval will have to be the same or after the start.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020502 },
20503 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020504 ],
20505 }</pre>
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -070020506</div>
20507
20508<div class="method">
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020509 <code class="details" id="get">get(spreadsheetId, ranges=None, includeGridData=None, x__xgafv=None)</code>
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070020510 <pre>Returns the spreadsheet at the given ID. The caller must specify the spreadsheet ID. By default, data within grids will not be returned. You can include grid data one of two ways: * Specify a field mask listing your desired fields using the `fields` URL parameter in HTTP * Set the includeGridData URL parameter to true. If a field mask is set, the `includeGridData` parameter is ignored For large spreadsheets, it is recommended to retrieve only the specific fields of the spreadsheet that you want. To retrieve only subsets of the spreadsheet, use the ranges URL parameter. Multiple ranges can be specified. Limiting the range will return only the portions of the spreadsheet that intersect the requested ranges. Ranges are specified using A1 notation.
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -070020511
20512Args:
20513 spreadsheetId: string, The spreadsheet to request. (required)
Bu Sun Kim4ed7d3f2020-05-27 12:20:54 -070020514 ranges: string, The ranges to retrieve from the spreadsheet. (repeated)
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020515 includeGridData: boolean, True if grid data should be returned. This parameter is ignored if a field mask was set in the request.
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -070020516 x__xgafv: string, V1 error format.
20517 Allowed values
20518 1 - v1 error format
20519 2 - v2 error format
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -070020520
20521Returns:
20522 An object of the form:
20523
20524 { # Resource that represents a spreadsheet.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020525 &quot;spreadsheetId&quot;: &quot;A String&quot;, # The ID of the spreadsheet. This field is read-only.
20526 &quot;dataSources&quot;: [ # A list of external data sources connected with the spreadsheet.
20527 { # Information about an external data source in the spreadsheet.
20528 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
20529 { # A column in a data source.
20530 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
20531 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
20532 },
20533 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
20534 },
20535 ],
20536 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
20537 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
20538 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
20539 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
20540 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
20541 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
20542 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20543 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20544 &quot;sheetId&quot;: 42, # The sheet this range is on.
20545 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20546 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20547 },
20548 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
20549 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
20550 },
20551 ],
20552 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
20553 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
20554 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
20555 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
20556 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
20557 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
20558 },
20559 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
20560 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
20561 },
20562 },
20563 },
20564 },
20565 ],
20566 &quot;developerMetadata&quot;: [ # The developer metadata associated with a spreadsheet.
20567 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
20568 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
20569 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
20570 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
20571 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
20572 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
20573 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
20574 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
20575 &quot;sheetId&quot;: 42, # The sheet this span is on.
20576 },
20577 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
20578 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
20579 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
20580 },
20581 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
20582 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
20583 },
20584 ],
20585 &quot;namedRanges&quot;: [ # The named ranges defined in a spreadsheet.
20586 { # A named range.
20587 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range.
20588 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this represents.
20589 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20590 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20591 &quot;sheetId&quot;: 42, # The sheet this range is on.
20592 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20593 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20594 },
20595 &quot;name&quot;: &quot;A String&quot;, # The name of the named range.
20596 },
20597 ],
20598 &quot;spreadsheetUrl&quot;: &quot;A String&quot;, # The url of the spreadsheet. This field is read-only.
20599 &quot;sheets&quot;: [ # The sheets that are part of a spreadsheet.
20600 { # A sheet in a spreadsheet.
20601 &quot;rowGroups&quot;: [ # All row groups on this sheet, ordered by increasing range start index, then by group depth.
20602 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
20603 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
20604 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
20605 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
20606 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
20607 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
20608 &quot;sheetId&quot;: 42, # The sheet this span is on.
20609 },
20610 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
20611 },
20612 ],
20613 &quot;bandedRanges&quot;: [ # The banded (alternating colors) ranges on this sheet.
20614 { # A banded (alternating colors) range in a sheet.
20615 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range over which these properties are applied.
20616 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20617 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20618 &quot;sheetId&quot;: 42, # The sheet this range is on.
20619 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20620 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20621 },
20622 &quot;columnProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for column bands. These properties are applied on a column- by-column basis throughout all the columns in the range. At least one of row_properties or column_properties must be specified.
20623 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020624 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20625 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020626 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20627 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080020628 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020629 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
20630 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20631 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20632 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20633 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20634 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20635 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20636 },
20637 },
20638 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
20639 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20640 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20641 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20642 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20643 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20644 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20645 },
20646 },
20647 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
20648 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20649 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20650 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20651 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20652 },
20653 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
20654 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20655 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20656 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20657 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20658 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20659 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20660 },
20661 },
20662 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
20663 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20664 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20665 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20666 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20667 },
20668 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
20669 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20670 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20671 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20672 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20673 },
20674 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
20675 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20676 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20677 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20678 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20679 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20680 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20681 },
20682 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070020683 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080020684 &quot;rowProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for row bands. These properties are applied on a row-by-row basis throughout all the rows in the range. At least one of row_properties or column_properties must be specified.
20685 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
20686 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20687 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20688 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20689 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20690 },
20691 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
20692 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20693 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20694 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20695 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20696 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20697 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20698 },
20699 },
20700 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
20701 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20702 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20703 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20704 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20705 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20706 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20707 },
20708 },
20709 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
20710 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20711 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20712 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20713 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20714 },
20715 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
20716 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20717 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20718 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20719 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20720 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20721 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20722 },
20723 },
20724 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
20725 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20726 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20727 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20728 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20729 },
20730 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
20731 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20732 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20733 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20734 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20735 },
20736 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
20737 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20738 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20739 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20740 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20741 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20742 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20743 },
20744 },
20745 },
20746 &quot;bandedRangeId&quot;: 42, # The id of the banded range.
20747 },
20748 ],
20749 &quot;conditionalFormats&quot;: [ # The conditional format rules in this sheet.
20750 { # A rule describing a conditional format.
20751 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
20752 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
20753 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
20754 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
20755 &quot;sheetId&quot;: 42, # The sheet this range is on.
20756 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
20757 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
20758 },
20759 ],
20760 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
20761 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
20762 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
20763 { # The value of the condition.
20764 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
20765 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
20766 },
20767 ],
20768 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
20769 },
20770 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
20771 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
20772 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
20773 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
20774 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
20775 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
20776 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20777 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20778 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20779 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20780 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20781 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20782 },
20783 },
20784 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
20785 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20786 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20787 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20788 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20789 },
20790 },
20791 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
20792 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
20793 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
20794 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
20795 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20796 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20797 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20798 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20799 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20800 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20801 },
20802 },
20803 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
20804 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20805 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20806 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20807 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20808 },
20809 },
20810 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
20811 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
20812 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
20813 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
20814 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20815 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20816 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20817 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20818 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20819 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20820 },
20821 },
20822 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
20823 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20824 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20825 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20826 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20827 },
20828 },
20829 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
20830 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
20831 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
20832 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
20833 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20834 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20835 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20836 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20837 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20838 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20839 },
20840 },
20841 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
20842 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20843 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20844 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20845 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20846 },
20847 },
20848 },
20849 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
20850 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20851 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20852 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20853 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20854 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20855 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20856 },
20857 },
20858 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
20859 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
20860 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
20861 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
20862 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
20863 },
20864 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
20865 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
20866 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
20867 &quot;bold&quot;: True or False, # True if the text is bold.
20868 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
20869 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
20870 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20871 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20872 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20873 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20874 },
20875 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
20876 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20877 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20878 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20879 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20880 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20881 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20882 },
20883 },
20884 &quot;italic&quot;: True or False, # True if the text is italicized.
20885 &quot;underline&quot;: True or False, # True if the text is underlined.
20886 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
20887 &quot;fontSize&quot;: 42, # The size of the font.
20888 },
20889 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
20890 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
20891 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
20892 },
20893 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
20894 &quot;bottom&quot;: 42, # The bottom padding of the cell.
20895 &quot;top&quot;: 42, # The top padding of the cell.
20896 &quot;right&quot;: 42, # The right padding of the cell.
20897 &quot;left&quot;: 42, # The left padding of the cell.
20898 },
20899 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
20900 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20901 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20902 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20903 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20904 },
20905 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
20906 },
20907 },
20908 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
20909 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
20910 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
20911 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20912 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20913 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20914 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20915 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20916 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20917 },
20918 },
20919 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
20920 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20921 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20922 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20923 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20924 },
20925 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
20926 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
20927 },
20928 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
20929 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
20930 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20931 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20932 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20933 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20934 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20935 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20936 },
20937 },
20938 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
20939 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20940 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20941 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20942 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20943 },
20944 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
20945 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
20946 },
20947 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
20948 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
20949 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
20950 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
20951 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20952 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20953 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20954 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20955 },
20956 },
20957 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
20958 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
20959 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
20960 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
20961 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
20962 },
20963 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
20964 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
20965 },
20966 },
20967 },
20968 ],
20969 &quot;data&quot;: [ # Data in the grid, if this is a grid sheet. The number of GridData objects returned is dependent on the number of ranges requested on this sheet. For example, if this is representing `Sheet1`, and the spreadsheet was requested with ranges `Sheet1!A1:C10` and `Sheet1!D15:E20`, then the first GridData will have a startRow/startColumn of `0`, while the second one will have `startRow 14` (zero-based row 15), and `startColumn 3` (zero-based column D). For a DATA_SOURCE sheet, you can not request a specific range, the GridData contains all the values.
20970 { # Data in the grid, as well as metadata about the dimensions.
20971 &quot;columnMetadata&quot;: [ # Metadata about the requested columns in the grid, starting with the column in start_column.
20972 { # Properties about a dimension.
20973 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
20974 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
20975 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
20976 },
20977 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
20978 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
20979 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
20980 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
20981 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
20982 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
20983 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
20984 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
20985 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
20986 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
20987 &quot;sheetId&quot;: 42, # The sheet this span is on.
20988 },
20989 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
20990 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
20991 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
20992 },
20993 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
20994 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
20995 },
20996 ],
20997 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
20998 },
20999 ],
21000 &quot;startRow&quot;: 42, # The first row this GridData refers to, zero-based.
21001 &quot;rowData&quot;: [ # The data in the grid, one entry per row, starting with the row in startRow. The values in RowData will correspond to columns starting at start_column.
21002 { # Data about each cell in a row.
21003 &quot;values&quot;: [ # The values in the row, one per column.
21004 { # Data about a specific cell.
21005 &quot;effectiveValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The effective value of the cell. For cells with formulas, this is the calculated value. For cells with literals, this is the same as the user_entered_value. This field is read-only.
21006 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21007 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21008 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21009 },
21010 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21011 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21012 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21013 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21014 },
21015 &quot;formattedValue&quot;: &quot;A String&quot;, # The formatted value of the cell. This is the value as it&#x27;s shown to the user. This field is read-only.
21016 &quot;userEnteredFormat&quot;: { # The format of a cell. # The format the user entered for the cell. When writing, the new format will be merged with the existing format.
21017 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
21018 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
21019 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
21020 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
21021 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
21022 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21023 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21024 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21025 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21026 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21027 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21028 },
21029 },
21030 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
21031 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21032 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21033 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21034 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21035 },
21036 },
21037 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
21038 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
21039 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
21040 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
21041 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21042 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21043 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21044 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21045 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21046 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21047 },
21048 },
21049 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
21050 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21051 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21052 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21053 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21054 },
21055 },
21056 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
21057 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
21058 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
21059 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
21060 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21061 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21062 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21063 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21064 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21065 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21066 },
21067 },
21068 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
21069 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21070 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21071 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21072 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21073 },
21074 },
21075 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
21076 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
21077 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
21078 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
21079 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21080 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21081 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21082 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21083 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21084 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21085 },
21086 },
21087 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
21088 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21089 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21090 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21091 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21092 },
21093 },
21094 },
21095 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
21096 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21097 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21098 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21099 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21100 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21101 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21102 },
21103 },
21104 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
21105 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
21106 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
21107 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
21108 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
21109 },
21110 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
21111 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
21112 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
21113 &quot;bold&quot;: True or False, # True if the text is bold.
21114 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
21115 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
21116 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21117 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21118 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21119 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21120 },
21121 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
21122 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21123 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21124 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21125 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21126 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21127 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21128 },
21129 },
21130 &quot;italic&quot;: True or False, # True if the text is italicized.
21131 &quot;underline&quot;: True or False, # True if the text is underlined.
21132 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
21133 &quot;fontSize&quot;: 42, # The size of the font.
21134 },
21135 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
21136 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
21137 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
21138 },
21139 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
21140 &quot;bottom&quot;: 42, # The bottom padding of the cell.
21141 &quot;top&quot;: 42, # The top padding of the cell.
21142 &quot;right&quot;: 42, # The right padding of the cell.
21143 &quot;left&quot;: 42, # The left padding of the cell.
21144 },
21145 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
21146 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21147 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21148 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21149 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21150 },
21151 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
21152 },
21153 &quot;textFormatRuns&quot;: [ # Runs of rich text applied to subsections of the cell. Runs are only valid on user entered strings, not formulas, bools, or numbers. Properties of a run start at a specific index in the text and continue until the next run. Runs will inherit the properties of the cell unless explicitly changed. When writing, the new runs will overwrite any prior runs. When writing a new user_entered_value, previous runs are erased.
21154 { # A run of a text format. The format of this run continues until the start index of the next run. When updating, all fields must be set.
21155 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of this run. Absent values inherit the cell&#x27;s format.
21156 &quot;bold&quot;: True or False, # True if the text is bold.
21157 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
21158 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
21159 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21160 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21161 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21162 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21163 },
21164 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
21165 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21166 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21167 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21168 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21169 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21170 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21171 },
21172 },
21173 &quot;italic&quot;: True or False, # True if the text is italicized.
21174 &quot;underline&quot;: True or False, # True if the text is underlined.
21175 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
21176 &quot;fontSize&quot;: 42, # The size of the font.
21177 },
21178 &quot;startIndex&quot;: 42, # The character index where this run starts.
21179 },
21180 ],
21181 &quot;hyperlink&quot;: &quot;A String&quot;, # A hyperlink this cell points to, if any. If the cell contains multiple hyperlinks, this field will be empty. This field is read-only. To set it, use a `=HYPERLINK` formula in the userEnteredValue.formulaValue field.
21182 &quot;dataSourceTable&quot;: { # A data source table, which allows the user to import a static table of data from the DataSource into Sheets. This is also known as &quot;Extract&quot; in the Sheets editor. # A data source table anchored at this cell. The size of data source table itself is computed dynamically based on its configuration. Only the first cell of the data source table contains the data source table definition. The other cells will contain the display values of the data source table result in their effective_value fields.
21183 &quot;columns&quot;: [ # Columns selected for the data source table. The column_selection_type must be SELECTED.
21184 { # An unique identifier that references a data source column.
21185 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21186 },
21187 ],
21188 &quot;sortSpecs&quot;: [ # Sort specifications in the data source table. The result of the data source table is sorted based on the sort specifications in order.
21189 { # A sort order associated with a specific column or row.
21190 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
21191 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21192 },
21193 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
21194 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
21195 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21196 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21197 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21198 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21199 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21200 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21201 },
21202 },
21203 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
21204 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21205 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21206 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21207 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21208 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21209 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21210 },
21211 },
21212 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
21213 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21214 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21215 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21216 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21217 },
21218 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
21219 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
21220 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21221 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21222 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21223 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21224 },
21225 },
21226 ],
21227 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the data source table is associated with.
21228 &quot;columnSelectionType&quot;: &quot;A String&quot;, # The type to select columns for the data source table. Defaults to SELECTED.
21229 &quot;rowLimit&quot;: 42, # The limit of rows to return. If not set, a default limit is applied. Please refer to the Sheets editor for the default and max limit.
21230 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
21231 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
21232 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
21233 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
21234 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
21235 },
21236 &quot;filterSpecs&quot;: [ # Filter specifications in the data source table.
21237 { # The filter criteria associated with a specific column.
21238 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
21239 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21240 },
21241 &quot;columnIndex&quot;: 42, # The column index.
21242 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
21243 &quot;hiddenValues&quot;: [ # Values that should be hidden.
21244 &quot;A String&quot;,
21245 ],
21246 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
21247 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21248 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21249 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21250 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21251 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21252 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21253 },
21254 },
21255 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
21256 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
21257 { # The value of the condition.
21258 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
21259 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
21260 },
21261 ],
21262 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
21263 },
21264 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
21265 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21266 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21267 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21268 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21269 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21270 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21271 },
21272 },
21273 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
21274 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21275 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21276 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21277 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21278 },
21279 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
21280 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21281 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21282 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21283 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21284 },
21285 },
21286 },
21287 ],
21288 },
21289 &quot;dataSourceFormula&quot;: { # A data source formula. # Output only. Information about a data source formula on the cell. The field is set if user_entered_value is a formula referencing some DATA_SOURCE sheet, e.g `=SUM(DataSheet!Column)`.
21290 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
21291 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
21292 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
21293 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
21294 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
21295 },
21296 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the formula is associated with.
21297 },
21298 &quot;userEnteredValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The value the user entered in the cell. e.g, `1234`, `&#x27;Hello&#x27;`, or `=NOW()` Note: Dates, Times and DateTimes are represented as doubles in serial number format.
21299 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21300 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21301 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21302 },
21303 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21304 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21305 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21306 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21307 },
21308 &quot;note&quot;: &quot;A String&quot;, # Any note on the cell.
21309 &quot;dataValidation&quot;: { # A data validation rule. # A data validation rule on the cell, if any. When writing, the new data validation rule will overwrite any prior rule.
21310 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
21311 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
21312 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
21313 { # The value of the condition.
21314 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
21315 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
21316 },
21317 ],
21318 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
21319 },
21320 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
21321 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
21322 },
21323 &quot;effectiveFormat&quot;: { # The format of a cell. # The effective format being used by the cell. This includes the results of applying any conditional formatting and, if the cell contains a formula, the computed number format. If the effective format is the default format, effective format will not be written. This field is read-only.
21324 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
21325 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
21326 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
21327 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
21328 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
21329 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21330 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21331 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21332 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21333 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21334 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21335 },
21336 },
21337 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
21338 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21339 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21340 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21341 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21342 },
21343 },
21344 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
21345 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
21346 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
21347 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
21348 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21349 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21350 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21351 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21352 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21353 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21354 },
21355 },
21356 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
21357 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21358 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21359 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21360 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21361 },
21362 },
21363 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
21364 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
21365 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
21366 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
21367 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21368 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21369 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21370 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21371 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21372 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21373 },
21374 },
21375 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
21376 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21377 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21378 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21379 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21380 },
21381 },
21382 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
21383 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
21384 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
21385 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
21386 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21387 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21388 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21389 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21390 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21391 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21392 },
21393 },
21394 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
21395 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21396 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21397 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21398 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21399 },
21400 },
21401 },
21402 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
21403 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21404 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21405 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21406 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21407 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21408 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21409 },
21410 },
21411 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
21412 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
21413 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
21414 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
21415 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
21416 },
21417 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
21418 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
21419 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
21420 &quot;bold&quot;: True or False, # True if the text is bold.
21421 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
21422 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
21423 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21424 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21425 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21426 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21427 },
21428 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
21429 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21430 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21431 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21432 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21433 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21434 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21435 },
21436 },
21437 &quot;italic&quot;: True or False, # True if the text is italicized.
21438 &quot;underline&quot;: True or False, # True if the text is underlined.
21439 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
21440 &quot;fontSize&quot;: 42, # The size of the font.
21441 },
21442 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
21443 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
21444 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
21445 },
21446 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
21447 &quot;bottom&quot;: 42, # The bottom padding of the cell.
21448 &quot;top&quot;: 42, # The top padding of the cell.
21449 &quot;right&quot;: 42, # The right padding of the cell.
21450 &quot;left&quot;: 42, # The left padding of the cell.
21451 },
21452 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
21453 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21454 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21455 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21456 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21457 },
21458 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
21459 },
21460 &quot;pivotTable&quot;: { # A pivot table. # A pivot table anchored at this cell. The size of pivot table itself is computed dynamically based on its data, grouping, filters, values, etc. Only the top-left cell of the pivot table contains the pivot table definition. The other cells will contain the calculated values of the results of the pivot in their effective_value fields.
21461 &quot;criteria&quot;: { # An optional mapping of filters per source column offset. The filters are applied before aggregating data into the pivot table. The map&#x27;s key is the column offset of the source range that you want to filter, and the value is the criteria for that column. For example, if the source was `C10:E15`, a key of `0` will have the filter for column `C`, whereas the key `1` is for column `D`. This field is deprecated in favor of filter_specs.
21462 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a pivot table.
21463 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
21464 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
21465 { # The value of the condition.
21466 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
21467 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
21468 },
21469 ],
21470 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
21471 },
21472 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
21473 &quot;A String&quot;,
21474 ],
21475 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
21476 },
21477 },
21478 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the pivot table is reading data from.
21479 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
21480 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
21481 &quot;sheetId&quot;: 42, # The sheet this range is on.
21482 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
21483 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
21484 },
21485 &quot;columns&quot;: [ # Each column grouping in the pivot table.
21486 { # A single grouping (either row or column) in a pivot table.
21487 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
21488 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
21489 { # Metadata about a value in a pivot grouping.
21490 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
21491 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21492 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21493 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21494 },
21495 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21496 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21497 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21498 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21499 },
21500 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
21501 },
21502 ],
21503 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
21504 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
21505 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
21506 &quot;countLimit&quot;: 42, # The count limit.
21507 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
21508 },
21509 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
21510 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
21511 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
21512 { # The kinds of value that a cell in a spreadsheet can have.
21513 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21514 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21515 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21516 },
21517 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21518 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21519 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21520 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21521 },
21522 ],
21523 },
21524 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
21525 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21526 },
21527 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
21528 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
21529 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
21530 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
21531 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
21532 },
21533 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
21534 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
21535 { # A group name and a list of items from the source data that should be placed in the group with this name.
21536 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
21537 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21538 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21539 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21540 },
21541 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21542 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21543 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21544 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21545 },
21546 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
21547 { # The kinds of value that a cell in a spreadsheet can have.
21548 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21549 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21550 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21551 },
21552 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21553 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21554 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21555 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21556 },
21557 ],
21558 },
21559 ],
21560 },
21561 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
21562 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
21563 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
21564 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
21565 },
21566 },
21567 },
21568 ],
21569 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the pivot table is reading data from.
21570 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status for data source pivot tables.
21571 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
21572 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
21573 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
21574 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
21575 },
21576 &quot;values&quot;: [ # A list of values to include in the pivot table.
21577 { # The definition of how a value in a pivot table should be calculated.
21578 &quot;summarizeFunction&quot;: &quot;A String&quot;, # A function to summarize the value. If formula is set, the only supported values are SUM and CUSTOM. If sourceColumnOffset is set, then `CUSTOM` is not supported.
21579 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that this value reads from.
21580 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21581 },
21582 &quot;name&quot;: &quot;A String&quot;, # A name to use for the value.
21583 &quot;calculatedDisplayType&quot;: &quot;A String&quot;, # If specified, indicates that pivot values should be displayed as the result of a calculation with another pivot value. For example, if calculated_display_type is specified as PERCENT_OF_GRAND_TOTAL, all the pivot values are displayed as the percentage of the grand total. In the Sheets editor, this is referred to as &quot;Show As&quot; in the value section of a pivot table.
21584 &quot;formula&quot;: &quot;A String&quot;, # A custom formula to calculate the value. The formula must start with an `=` character.
21585 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this value reads from. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this value refers to column `C`, whereas the offset `1` would refer to column `D`.
21586 },
21587 ],
21588 &quot;filterSpecs&quot;: [ # The filters applied to the source columns before aggregating data for the pivot table. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
21589 { # The pivot table filter criteria associated with a specific source column offset.
21590 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a pivot table. # The criteria for the column.
21591 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
21592 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
21593 { # The value of the condition.
21594 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
21595 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
21596 },
21597 ],
21598 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
21599 },
21600 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
21601 &quot;A String&quot;,
21602 ],
21603 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
21604 },
21605 &quot;columnOffsetIndex&quot;: 42, # The column offset of the source range.
21606 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column.
21607 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21608 },
21609 },
21610 ],
21611 &quot;valueLayout&quot;: &quot;A String&quot;, # Whether values should be listed horizontally (as columns) or vertically (as rows).
21612 &quot;rows&quot;: [ # Each row grouping in the pivot table.
21613 { # A single grouping (either row or column) in a pivot table.
21614 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
21615 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
21616 { # Metadata about a value in a pivot grouping.
21617 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
21618 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21619 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21620 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21621 },
21622 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21623 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21624 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21625 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21626 },
21627 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
21628 },
21629 ],
21630 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
21631 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
21632 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
21633 &quot;countLimit&quot;: 42, # The count limit.
21634 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
21635 },
21636 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
21637 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
21638 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
21639 { # The kinds of value that a cell in a spreadsheet can have.
21640 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21641 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21642 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21643 },
21644 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21645 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21646 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21647 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21648 },
21649 ],
21650 },
21651 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
21652 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21653 },
21654 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
21655 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
21656 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
21657 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
21658 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
21659 },
21660 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
21661 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
21662 { # A group name and a list of items from the source data that should be placed in the group with this name.
21663 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
21664 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21665 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21666 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21667 },
21668 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21669 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21670 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21671 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21672 },
21673 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
21674 { # The kinds of value that a cell in a spreadsheet can have.
21675 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
21676 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
21677 &quot;type&quot;: &quot;A String&quot;, # The type of error.
21678 },
21679 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
21680 &quot;boolValue&quot;: True or False, # Represents a boolean value.
21681 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
21682 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
21683 },
21684 ],
21685 },
21686 ],
21687 },
21688 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
21689 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
21690 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
21691 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
21692 },
21693 },
21694 },
21695 ],
21696 },
21697 },
21698 ],
21699 },
21700 ],
21701 &quot;startColumn&quot;: 42, # The first column this GridData refers to, zero-based.
21702 &quot;rowMetadata&quot;: [ # Metadata about the requested rows in the grid, starting with the row in start_row.
21703 { # Properties about a dimension.
21704 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
21705 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
21706 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21707 },
21708 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
21709 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
21710 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
21711 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
21712 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
21713 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
21714 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
21715 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
21716 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
21717 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
21718 &quot;sheetId&quot;: 42, # The sheet this span is on.
21719 },
21720 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
21721 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
21722 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
21723 },
21724 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
21725 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
21726 },
21727 ],
21728 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
21729 },
21730 ],
21731 },
21732 ],
21733 &quot;filterViews&quot;: [ # The filter views in this sheet.
21734 { # A filter view.
21735 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
21736 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
21737 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
21738 &quot;sheetId&quot;: 42, # The sheet this range is on.
21739 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
21740 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
21741 },
21742 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
21743 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
21744 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
21745 { # A sort order associated with a specific column or row.
21746 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
21747 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21748 },
21749 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
21750 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
21751 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21752 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21753 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21754 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21755 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21756 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21757 },
21758 },
21759 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
21760 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21761 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21762 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21763 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21764 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21765 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21766 },
21767 },
21768 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
21769 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21770 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21771 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21772 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21773 },
21774 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
21775 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
21776 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21777 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21778 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21779 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21780 },
21781 },
21782 ],
21783 &quot;filterViewId&quot;: 42, # The ID of the filter view.
21784 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
21785 { # The filter criteria associated with a specific column.
21786 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
21787 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21788 },
21789 &quot;columnIndex&quot;: 42, # The column index.
21790 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
21791 &quot;hiddenValues&quot;: [ # Values that should be hidden.
21792 &quot;A String&quot;,
21793 ],
21794 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
21795 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21796 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21797 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21798 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21799 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21800 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21801 },
21802 },
21803 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
21804 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
21805 { # The value of the condition.
21806 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
21807 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
21808 },
21809 ],
21810 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
21811 },
21812 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
21813 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21814 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21815 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21816 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21817 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21818 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21819 },
21820 },
21821 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
21822 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21823 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21824 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21825 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21826 },
21827 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
21828 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21829 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21830 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21831 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21832 },
21833 },
21834 },
21835 ],
21836 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
21837 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
21838 &quot;hiddenValues&quot;: [ # Values that should be hidden.
21839 &quot;A String&quot;,
21840 ],
21841 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
21842 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21843 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21844 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21845 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21846 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21847 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21848 },
21849 },
21850 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
21851 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
21852 { # The value of the condition.
21853 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
21854 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
21855 },
21856 ],
21857 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
21858 },
21859 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
21860 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21861 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21862 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21863 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21864 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21865 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21866 },
21867 },
21868 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
21869 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21870 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21871 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21872 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21873 },
21874 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
21875 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21876 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21877 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21878 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21879 },
21880 },
21881 },
21882 },
21883 ],
21884 &quot;columnGroups&quot;: [ # All column groups on this sheet, ordered by increasing range start index, then by group depth.
21885 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
21886 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
21887 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
21888 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
21889 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
21890 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
21891 &quot;sheetId&quot;: 42, # The sheet this span is on.
21892 },
21893 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
21894 },
21895 ],
21896 &quot;developerMetadata&quot;: [ # The developer metadata associated with a sheet.
21897 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
21898 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
21899 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
21900 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
21901 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
21902 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
21903 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
21904 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
21905 &quot;sheetId&quot;: 42, # The sheet this span is on.
21906 },
21907 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
21908 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
21909 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
21910 },
21911 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
21912 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
21913 },
21914 ],
21915 &quot;charts&quot;: [ # The specifications of every chart on this sheet.
21916 { # A chart embedded in a sheet.
21917 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the chart.
21918 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
21919 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
21920 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
21921 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
21922 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
21923 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
21924 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
21925 },
21926 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
21927 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
21928 },
21929 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
21930 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
21931 },
21932 &quot;spec&quot;: { # The specifications of a chart. # The specification of the chart.
21933 &quot;subtitleTextPosition&quot;: { # Position settings for text. # The subtitle text position. This field is optional.
21934 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
21935 },
21936 &quot;orgChart&quot;: { # An org chart. Org charts require a unique set of labels in labels and may optionally include parent_labels and tooltips. parent_labels contain, for each node, the label identifying the parent node. tooltips contain, for each node, an optional tooltip. For example, to describe an OrgChart with Alice as the CEO, Bob as the President (reporting to Alice) and Cathy as VP of Sales (also reporting to Alice), have labels contain &quot;Alice&quot;, &quot;Bob&quot;, &quot;Cathy&quot;, parent_labels contain &quot;&quot;, &quot;Alice&quot;, &quot;Alice&quot; and tooltips contain &quot;CEO&quot;, &quot;President&quot;, &quot;VP Sales&quot;. # An org chart specification.
21937 &quot;nodeSize&quot;: &quot;A String&quot;, # The size of the org chart nodes.
21938 &quot;nodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the org chart nodes.
21939 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21940 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21941 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21942 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21943 },
21944 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data containing the label of the parent for the corresponding node. A blank value indicates that the node has no parent and is a top-level node. This field is optional.
21945 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
21946 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
21947 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
21948 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
21949 },
21950 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
21951 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
21952 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
21953 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
21954 },
21955 },
21956 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
21957 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
21958 },
21959 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
21960 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
21961 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
21962 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
21963 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
21964 &quot;sheetId&quot;: 42, # The sheet this range is on.
21965 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
21966 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
21967 },
21968 ],
21969 },
21970 },
21971 &quot;selectedNodeColorStyle&quot;: { # A color value. # The color of the selected org chart nodes. If selected_node_color is also set, this field takes precedence.
21972 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
21973 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
21974 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21975 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21976 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21977 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21978 },
21979 },
21980 &quot;selectedNodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the selected org chart nodes.
21981 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
21982 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
21983 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
21984 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
21985 },
21986 &quot;labels&quot;: { # The data included in a domain or series. # The data containing the labels for all the nodes in the chart. Labels must be unique.
21987 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
21988 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
21989 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
21990 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
21991 },
21992 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
21993 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
21994 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
21995 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
21996 },
21997 },
21998 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
21999 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22000 },
22001 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22002 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22003 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22004 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22005 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22006 &quot;sheetId&quot;: 42, # The sheet this range is on.
22007 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22008 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22009 },
22010 ],
22011 },
22012 },
22013 &quot;tooltips&quot;: { # The data included in a domain or series. # The data containing the tooltip for the corresponding node. A blank value results in no tooltip being displayed for the node. This field is optional.
22014 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22015 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22016 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22017 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22018 },
22019 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22020 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22021 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22022 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22023 },
22024 },
22025 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22026 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22027 },
22028 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22029 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22030 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22031 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22032 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22033 &quot;sheetId&quot;: 42, # The sheet this range is on.
22034 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22035 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22036 },
22037 ],
22038 },
22039 },
22040 &quot;nodeColorStyle&quot;: { # A color value. # The color of the org chart nodes. If node_color is also set, this field takes precedence.
22041 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22042 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22043 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22044 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22045 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22046 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22047 },
22048 },
22049 },
22050 &quot;fontName&quot;: &quot;A String&quot;, # The name of the font to use by default for all chart text (e.g. title, axis labels, legend). If a font is specified for a specific part of the chart it will override this font name.
22051 &quot;scorecardChart&quot;: { # A scorecard chart. Scorecard charts are used to highlight key performance indicators, known as KPIs, on the spreadsheet. A scorecard chart can represent things like total sales, average cost, or a top selling item. You can specify a single data value, or aggregate over a range of data. Percentage or absolute difference from a baseline value can be highlighted, like changes over time. # A scorecard chart specification.
22052 &quot;customFormatOptions&quot;: { # Custom number formatting options for chart attributes. # Custom formatting options for numeric key/baseline values in scorecard chart. This field is used only when number_format_source is set to CUSTOM. This field is optional.
22053 &quot;prefix&quot;: &quot;A String&quot;, # Custom prefix to be prepended to the chart attribute. This field is optional.
22054 &quot;suffix&quot;: &quot;A String&quot;, # Custom suffix to be appended to the chart attribute. This field is optional.
22055 },
22056 &quot;baselineValueData&quot;: { # The data included in a domain or series. # The data for scorecard baseline value. This field is optional.
22057 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22058 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22059 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22060 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22061 },
22062 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22063 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22064 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22065 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22066 },
22067 },
22068 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22069 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22070 },
22071 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22072 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22073 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22074 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22075 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22076 &quot;sheetId&quot;: 42, # The sheet this range is on.
22077 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22078 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22079 },
22080 ],
22081 },
22082 },
22083 &quot;scaleFactor&quot;: 3.14, # Value to scale scorecard key and baseline value. For example, a factor of 10 can be used to divide all values in the chart by 10. This field is optional.
22084 &quot;baselineValueFormat&quot;: { # Formatting options for baseline value. # Formatting options for baseline value. This field is needed only if baseline_value_data is specified.
22085 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for baseline value.
22086 &quot;bold&quot;: True or False, # True if the text is bold.
22087 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
22088 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
22089 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22090 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22091 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22092 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22093 },
22094 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
22095 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22096 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22097 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22098 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22099 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22100 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22101 },
22102 },
22103 &quot;italic&quot;: True or False, # True if the text is italicized.
22104 &quot;underline&quot;: True or False, # True if the text is underlined.
22105 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
22106 &quot;fontSize&quot;: 42, # The size of the font.
22107 },
22108 &quot;comparisonType&quot;: &quot;A String&quot;, # The comparison type of key value with baseline value.
22109 &quot;negativeColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a negative change for key value. This field is optional. If negative_color is also set, this field takes precedence.
22110 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22111 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22112 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22113 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22114 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22115 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22116 },
22117 },
22118 &quot;positiveColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a positive change for key value. This field is optional. If positive_color is also set, this field takes precedence.
22119 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22120 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22121 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22122 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22123 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22124 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22125 },
22126 },
22127 &quot;description&quot;: &quot;A String&quot;, # Description which is appended after the baseline value. This field is optional.
22128 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of baseline value. This field is optional. If not specified, default positioning is used.
22129 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
22130 },
22131 &quot;negativeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a negative change for key value. This field is optional.
22132 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22133 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22134 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22135 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22136 },
22137 &quot;positiveColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a positive change for key value. This field is optional.
22138 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22139 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22140 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22141 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22142 },
22143 },
22144 &quot;keyValueData&quot;: { # The data included in a domain or series. # The data for scorecard key value.
22145 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22146 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22147 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22148 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22149 },
22150 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22151 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22152 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22153 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22154 },
22155 },
22156 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22157 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22158 },
22159 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22160 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22161 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22162 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22163 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22164 &quot;sheetId&quot;: 42, # The sheet this range is on.
22165 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22166 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22167 },
22168 ],
22169 },
22170 },
22171 &quot;numberFormatSource&quot;: &quot;A String&quot;, # The number format source used in the scorecard chart. This field is optional.
22172 &quot;keyValueFormat&quot;: { # Formatting options for key value. # Formatting options for key value.
22173 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for key value.
22174 &quot;bold&quot;: True or False, # True if the text is bold.
22175 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
22176 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
22177 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22178 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22179 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22180 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22181 },
22182 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
22183 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22184 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22185 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22186 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22187 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22188 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22189 },
22190 },
22191 &quot;italic&quot;: True or False, # True if the text is italicized.
22192 &quot;underline&quot;: True or False, # True if the text is underlined.
22193 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
22194 &quot;fontSize&quot;: 42, # The size of the font.
22195 },
22196 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of key value. This field is optional. If not specified, default positioning is used.
22197 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
22198 },
22199 },
22200 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for key and baseline chart data in scorecard chart. This field is not supported for data source charts. Use the ChartData.aggregateType field of the key_value_data or baseline_value_data instead for data source charts. This field is optional.
22201 },
22202 &quot;sortSpecs&quot;: [ # The order to sort the chart data by. Only a single sort spec is supported. Only supported for data source charts.
22203 { # A sort order associated with a specific column or row.
22204 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
22205 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22206 },
22207 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
22208 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
22209 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22210 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22211 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22212 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22213 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22214 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22215 },
22216 },
22217 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
22218 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22219 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22220 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22221 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22222 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22223 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22224 },
22225 },
22226 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
22227 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22228 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22229 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22230 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22231 },
22232 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
22233 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
22234 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22235 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22236 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22237 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22238 },
22239 },
22240 ],
22241 &quot;title&quot;: &quot;A String&quot;, # The title of the chart.
22242 &quot;titleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The title text format. Strikethrough and underline are not supported.
22243 &quot;bold&quot;: True or False, # True if the text is bold.
22244 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
22245 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
22246 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22247 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22248 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22249 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22250 },
22251 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
22252 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22253 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22254 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22255 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22256 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22257 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22258 },
22259 },
22260 &quot;italic&quot;: True or False, # True if the text is italicized.
22261 &quot;underline&quot;: True or False, # True if the text is underlined.
22262 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
22263 &quot;fontSize&quot;: 42, # The size of the font.
22264 },
22265 &quot;maximized&quot;: True or False, # True to make a chart fill the entire space in which it&#x27;s rendered with minimum padding. False to use the default padding. (Not applicable to Geo and Org charts.)
22266 &quot;dataSourceChartProperties&quot;: { # Properties of a data source chart. # If present, the field contains data source chart specific properties.
22267 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the data source that the chart is associated with.
22268 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
22269 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
22270 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
22271 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
22272 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
22273 },
22274 },
22275 &quot;waterfallChart&quot;: { # A waterfall chart. # A waterfall chart specification.
22276 &quot;hideConnectorLines&quot;: True or False, # True to hide connector lines between columns.
22277 &quot;connectorLineStyle&quot;: { # Properties that describe the style of a line. # The line style for the connector lines.
22278 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
22279 &quot;width&quot;: 42, # The thickness of the line, in px.
22280 },
22281 &quot;series&quot;: [ # The data this waterfall chart is visualizing.
22282 { # A single series of data for a waterfall chart.
22283 &quot;data&quot;: { # The data included in a domain or series. # The data being visualized in this series.
22284 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22285 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22286 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22287 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22288 },
22289 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22290 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22291 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22292 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22293 },
22294 },
22295 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22296 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22297 },
22298 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22299 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22300 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22301 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22302 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22303 &quot;sheetId&quot;: 42, # The sheet this range is on.
22304 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22305 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22306 },
22307 ],
22308 },
22309 },
22310 &quot;subtotalColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all subtotal columns in this series.
22311 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
22312 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
22313 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22314 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22315 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22316 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22317 },
22318 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
22319 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22320 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22321 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22322 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22323 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22324 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22325 },
22326 },
22327 },
22328 &quot;negativeColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with negative values.
22329 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
22330 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
22331 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22332 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22333 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22334 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22335 },
22336 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
22337 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22338 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22339 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22340 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22341 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22342 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22343 },
22344 },
22345 },
22346 &quot;hideTrailingSubtotal&quot;: True or False, # True to hide the subtotal column from the end of the series. By default, a subtotal column will appear at the end of each series. Setting this field to true will hide that subtotal column for this series.
22347 &quot;customSubtotals&quot;: [ # Custom subtotal columns appearing in this series. The order in which subtotals are defined is not significant. Only one subtotal may be defined for each data point.
22348 { # A custom subtotal column for a waterfall chart series.
22349 &quot;subtotalIndex&quot;: 42, # The 0-based index of a data point within the series. If data_is_subtotal is true, the data point at this index is the subtotal. Otherwise, the subtotal appears after the data point with this index. A series can have multiple subtotals at arbitrary indices, but subtotals do not affect the indices of the data points. For example, if a series has three data points, their indices will always be 0, 1, and 2, regardless of how many subtotals exist on the series or what data points they are associated with.
22350 &quot;label&quot;: &quot;A String&quot;, # A label for the subtotal column.
22351 &quot;dataIsSubtotal&quot;: True or False, # True if the data point at subtotal_index is the subtotal. If false, the subtotal will be computed and appear after the data point.
22352 },
22353 ],
22354 &quot;positiveColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with positive values.
22355 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
22356 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
22357 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22358 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22359 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22360 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22361 },
22362 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
22363 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22364 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22365 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22366 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22367 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22368 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22369 },
22370 },
22371 },
22372 },
22373 ],
22374 &quot;domain&quot;: { # The domain of a waterfall chart. # The domain data (horizontal axis) for the waterfall chart.
22375 &quot;data&quot;: { # The data included in a domain or series. # The data of the WaterfallChartDomain.
22376 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22377 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22378 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22379 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22380 },
22381 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22382 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22383 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22384 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22385 },
22386 },
22387 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22388 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22389 },
22390 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22391 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22392 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22393 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22394 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22395 &quot;sheetId&quot;: 42, # The sheet this range is on.
22396 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22397 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22398 },
22399 ],
22400 },
22401 },
22402 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
22403 },
22404 &quot;firstValueIsTotal&quot;: True or False, # True to interpret the first value as a total.
22405 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type.
22406 },
22407 &quot;histogramChart&quot;: { # A histogram chart. A histogram chart groups data items into bins, displaying each bin as a column of stacked items. Histograms are used to display the distribution of a dataset. Each column of items represents a range into which those items fall. The number of bins can be chosen automatically or specified explicitly. # A histogram chart specification.
22408 &quot;series&quot;: [ # The series for a histogram may be either a single series of values to be bucketed or multiple series, each of the same length, containing the name of the series followed by the values to be bucketed for that series.
22409 { # A histogram series containing the series color and data.
22410 &quot;data&quot;: { # The data included in a domain or series. # The data for this histogram series.
22411 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22412 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22413 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22414 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22415 },
22416 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22417 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22418 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22419 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22420 },
22421 },
22422 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22423 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22424 },
22425 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22426 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22427 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22428 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22429 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22430 &quot;sheetId&quot;: 42, # The sheet this range is on.
22431 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22432 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22433 },
22434 ],
22435 },
22436 },
22437 &quot;barColorStyle&quot;: { # A color value. # The color of the column representing this series in each bucket. This field is optional. If bar_color is also set, this field takes precedence.
22438 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22439 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22440 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22441 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22442 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22443 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22444 },
22445 },
22446 &quot;barColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column representing this series in each bucket. This field is optional.
22447 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22448 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22449 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22450 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22451 },
22452 },
22453 ],
22454 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
22455 &quot;showItemDividers&quot;: True or False, # Whether horizontal divider lines should be displayed between items in each column.
22456 &quot;outlierPercentile&quot;: 3.14, # The outlier percentile is used to ensure that outliers do not adversely affect the calculation of bucket sizes. For example, setting an outlier percentile of 0.05 indicates that the top and bottom 5% of values when calculating buckets. The values are still included in the chart, they will be added to the first or last buckets instead of their own buckets. Must be between 0.0 and 0.5.
22457 &quot;bucketSize&quot;: 3.14, # By default the bucket size (the range of values stacked in a single column) is chosen automatically, but it may be overridden here. E.g., A bucket size of 1.5 results in buckets from 0 - 1.5, 1.5 - 3.0, etc. Cannot be negative. This field is optional.
22458 },
22459 &quot;hiddenDimensionStrategy&quot;: &quot;A String&quot;, # Determines how the charts will use hidden rows or columns.
22460 &quot;bubbleChart&quot;: { # A bubble chart. # A bubble chart specification.
22461 &quot;bubbleMaxRadiusSize&quot;: 42, # The max radius size of the bubbles, in pixels. If specified, the field must be a positive value.
22462 &quot;bubbleSizes&quot;: { # The data included in a domain or series. # The data contianing the bubble sizes. Bubble sizes are used to draw the bubbles at different sizes relative to each other. If specified, group_ids must also be specified. This field is optional.
22463 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22464 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22465 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22466 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22467 },
22468 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22469 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22470 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22471 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22472 },
22473 },
22474 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22475 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22476 },
22477 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22478 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22479 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22480 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22481 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22482 &quot;sheetId&quot;: 42, # The sheet this range is on.
22483 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22484 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22485 },
22486 ],
22487 },
22488 },
22489 &quot;groupIds&quot;: { # The data included in a domain or series. # The data containing the bubble group IDs. All bubbles with the same group ID are drawn in the same color. If bubble_sizes is specified then this field must also be specified but may contain blank values. This field is optional.
22490 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22491 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22492 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22493 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22494 },
22495 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22496 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22497 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22498 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22499 },
22500 },
22501 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22502 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22503 },
22504 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22505 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22506 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22507 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22508 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22509 &quot;sheetId&quot;: 42, # The sheet this range is on.
22510 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22511 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22512 },
22513 ],
22514 },
22515 },
22516 &quot;bubbleOpacity&quot;: 3.14, # The opacity of the bubbles between 0 and 1.0. 0 is fully transparent and 1 is fully opaque.
22517 &quot;bubbleLabels&quot;: { # The data included in a domain or series. # The data containing the bubble labels. These do not need to be unique.
22518 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22519 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22520 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22521 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22522 },
22523 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22524 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22525 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22526 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22527 },
22528 },
22529 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22530 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22531 },
22532 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22533 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22534 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22535 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22536 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22537 &quot;sheetId&quot;: 42, # The sheet this range is on.
22538 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22539 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22540 },
22541 ],
22542 },
22543 },
22544 &quot;bubbleBorderColorStyle&quot;: { # A color value. # The bubble border color. If bubble_border_color is also set, this field takes precedence.
22545 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22546 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22547 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22548 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22549 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22550 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22551 },
22552 },
22553 &quot;domain&quot;: { # The data included in a domain or series. # The data containing the bubble x-values. These values locate the bubbles in the chart horizontally.
22554 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22555 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22556 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22557 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22558 },
22559 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22560 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22561 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22562 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22563 },
22564 },
22565 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22566 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22567 },
22568 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22569 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22570 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22571 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22572 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22573 &quot;sheetId&quot;: 42, # The sheet this range is on.
22574 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22575 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22576 },
22577 ],
22578 },
22579 },
22580 &quot;bubbleTextStyle&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text inside the bubbles. Strikethrough and underline are not supported.
22581 &quot;bold&quot;: True or False, # True if the text is bold.
22582 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
22583 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
22584 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22585 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22586 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22587 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22588 },
22589 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
22590 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22591 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22592 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22593 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22594 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22595 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22596 },
22597 },
22598 &quot;italic&quot;: True or False, # True if the text is italicized.
22599 &quot;underline&quot;: True or False, # True if the text is underlined.
22600 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
22601 &quot;fontSize&quot;: 42, # The size of the font.
22602 },
22603 &quot;bubbleMinRadiusSize&quot;: 42, # The minimum radius size of the bubbles, in pixels. If specific, the field must be a positive value.
22604 &quot;bubbleBorderColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The bubble border color.
22605 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22606 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22607 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22608 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22609 },
22610 &quot;series&quot;: { # The data included in a domain or series. # The data contianing the bubble y-values. These values locate the bubbles in the chart vertically.
22611 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22612 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22613 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22614 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22615 },
22616 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22617 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22618 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22619 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22620 },
22621 },
22622 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22623 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22624 },
22625 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22626 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22627 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22628 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22629 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22630 &quot;sheetId&quot;: 42, # The sheet this range is on.
22631 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22632 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22633 },
22634 ],
22635 },
22636 },
22637 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the chart should be drawn.
22638 },
22639 &quot;subtitle&quot;: &quot;A String&quot;, # The subtitle of the chart.
22640 &quot;pieChart&quot;: { # A pie chart. # A pie chart specification.
22641 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the pie chart should be drawn.
22642 &quot;threeDimensional&quot;: True or False, # True if the pie is three dimensional.
22643 &quot;domain&quot;: { # The data included in a domain or series. # The data that covers the domain of the pie chart.
22644 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22645 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22646 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22647 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22648 },
22649 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22650 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22651 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22652 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22653 },
22654 },
22655 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22656 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22657 },
22658 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22659 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22660 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22661 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22662 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22663 &quot;sheetId&quot;: 42, # The sheet this range is on.
22664 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22665 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22666 },
22667 ],
22668 },
22669 },
22670 &quot;pieHole&quot;: 3.14, # The size of the hole in the pie chart.
22671 &quot;series&quot;: { # The data included in a domain or series. # The data that covers the one and only series of the pie chart.
22672 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22673 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22674 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22675 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22676 },
22677 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22678 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22679 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22680 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22681 },
22682 },
22683 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22684 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22685 },
22686 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22687 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22688 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22689 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22690 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22691 &quot;sheetId&quot;: 42, # The sheet this range is on.
22692 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22693 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22694 },
22695 ],
22696 },
22697 },
22698 },
22699 &quot;treemapChart&quot;: { # A Treemap chart. # A treemap chart specification.
22700 &quot;headerColorStyle&quot;: { # A color value. # The background color for header cells. If header_color is also set, this field takes precedence.
22701 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22702 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22703 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22704 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22705 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22706 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22707 },
22708 },
22709 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data the contains the treemap cells&#x27; parent labels.
22710 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22711 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22712 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22713 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22714 },
22715 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22716 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22717 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22718 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22719 },
22720 },
22721 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22722 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22723 },
22724 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22725 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22726 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22727 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22728 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22729 &quot;sheetId&quot;: 42, # The sheet this range is on.
22730 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22731 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22732 },
22733 ],
22734 },
22735 },
22736 &quot;minValue&quot;: 3.14, # The minimum possible data value. Cells with values less than this will have the same color as cells with this value. If not specified, defaults to the actual minimum value from color_data, or the minimum value from size_data if color_data is not specified.
22737 &quot;hintedLevels&quot;: 42, # The number of additional data levels beyond the labeled levels to be shown on the treemap chart. These levels are not interactive and are shown without their labels. Defaults to 0 if not specified.
22738 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for header cells.
22739 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22740 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22741 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22742 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22743 },
22744 &quot;maxValue&quot;: 3.14, # The maximum possible data value. Cells with values greater than this will have the same color as cells with this value. If not specified, defaults to the actual maximum value from color_data, or the maximum value from size_data if color_data is not specified.
22745 &quot;sizeData&quot;: { # The data included in a domain or series. # The data that determines the size of each treemap data cell. This data is expected to be numeric. The cells corresponding to non-numeric or missing data will not be rendered. If color_data is not specified, this data is used to determine data cell background colors as well.
22746 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22747 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22748 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22749 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22750 },
22751 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22752 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22753 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22754 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22755 },
22756 },
22757 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22758 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22759 },
22760 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22761 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22762 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22763 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22764 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22765 &quot;sheetId&quot;: 42, # The sheet this range is on.
22766 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22767 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22768 },
22769 ],
22770 },
22771 },
22772 &quot;labels&quot;: { # The data included in a domain or series. # The data that contains the treemap cell labels.
22773 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22774 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22775 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22776 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22777 },
22778 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22779 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22780 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22781 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22782 },
22783 },
22784 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22785 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22786 },
22787 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22788 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22789 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22790 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22791 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22792 &quot;sheetId&quot;: 42, # The sheet this range is on.
22793 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22794 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22795 },
22796 ],
22797 },
22798 },
22799 &quot;colorData&quot;: { # The data included in a domain or series. # The data that determines the background color of each treemap data cell. This field is optional. If not specified, size_data is used to determine background colors. If specified, the data is expected to be numeric. color_scale will determine how the values in this data map to data cell background colors.
22800 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22801 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22802 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22803 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22804 },
22805 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22806 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22807 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22808 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22809 },
22810 },
22811 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22812 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22813 },
22814 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22815 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22816 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
22817 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
22818 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
22819 &quot;sheetId&quot;: 42, # The sheet this range is on.
22820 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
22821 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
22822 },
22823 ],
22824 },
22825 },
22826 &quot;colorScale&quot;: { # A color scale for a treemap chart. # The color scale for data cells in the treemap chart. Data cells are assigned colors based on their color values. These color values come from color_data, or from size_data if color_data is not specified. Cells with color values less than or equal to min_value will have minValueColor as their background color. Cells with color values greater than or equal to max_value will have maxValueColor as their background color. Cells with color values between min_value and max_value will have background colors on a gradient between minValueColor and maxValueColor, the midpoint of the gradient being midValueColor. Cells with missing or non-numeric color values will have noDataColor as their background color.
22827 &quot;midValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified.
22828 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22829 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22830 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22831 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22832 },
22833 &quot;maxValueColorStyle&quot;: { # A color value. # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified. If max_value_color is also set, this field takes precedence.
22834 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22835 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22836 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22837 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22838 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22839 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22840 },
22841 },
22842 &quot;minValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified.
22843 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22844 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22845 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22846 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22847 },
22848 &quot;noDataColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified.
22849 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22850 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22851 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22852 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22853 },
22854 &quot;noDataColorStyle&quot;: { # A color value. # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified. If no_data_color is also set, this field takes precedence.
22855 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22856 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22857 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22858 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22859 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22860 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22861 },
22862 },
22863 &quot;midValueColorStyle&quot;: { # A color value. # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified. If mid_value_color is also set, this field takes precedence.
22864 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22865 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22866 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22867 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22868 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22869 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22870 },
22871 },
22872 &quot;maxValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified.
22873 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22874 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22875 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22876 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22877 },
22878 &quot;minValueColorStyle&quot;: { # A color value. # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified. If min_value_color is also set, this field takes precedence.
22879 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22880 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22881 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22882 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22883 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22884 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22885 },
22886 },
22887 },
22888 &quot;hideTooltips&quot;: True or False, # True to hide tooltips.
22889 &quot;levels&quot;: 42, # The number of data levels to show on the treemap chart. These levels are interactive and are shown with their labels. Defaults to 2 if not specified.
22890 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format for all labels on the chart.
22891 &quot;bold&quot;: True or False, # True if the text is bold.
22892 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
22893 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
22894 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22895 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22896 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22897 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22898 },
22899 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
22900 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22901 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22902 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22903 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22904 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22905 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22906 },
22907 },
22908 &quot;italic&quot;: True or False, # True if the text is italicized.
22909 &quot;underline&quot;: True or False, # True if the text is underlined.
22910 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
22911 &quot;fontSize&quot;: 42, # The size of the font.
22912 },
22913 },
22914 &quot;titleTextPosition&quot;: { # Position settings for text. # The title text position. This field is optional.
22915 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
22916 },
22917 &quot;altText&quot;: &quot;A String&quot;, # The alternative text that describes the chart. This is often used for accessibility.
22918 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the entire chart. Not applicable to Org charts. If background_color is also set, this field takes precedence.
22919 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22920 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22921 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22922 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22923 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22924 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22925 },
22926 },
22927 &quot;filterSpecs&quot;: [ # The filters applied to the source data of the chart. Only supported for data source charts.
22928 { # The filter criteria associated with a specific column.
22929 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
22930 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22931 },
22932 &quot;columnIndex&quot;: 42, # The column index.
22933 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
22934 &quot;hiddenValues&quot;: [ # Values that should be hidden.
22935 &quot;A String&quot;,
22936 ],
22937 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
22938 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22939 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22940 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22941 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22942 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22943 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22944 },
22945 },
22946 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
22947 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
22948 { # The value of the condition.
22949 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
22950 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
22951 },
22952 ],
22953 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
22954 },
22955 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
22956 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
22957 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
22958 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22959 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22960 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22961 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22962 },
22963 },
22964 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
22965 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22966 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22967 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22968 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22969 },
22970 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
22971 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
22972 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
22973 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
22974 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
22975 },
22976 },
22977 },
22978 ],
22979 &quot;candlestickChart&quot;: { # A candlestick chart. # A candlestick chart specification.
22980 &quot;domain&quot;: { # The domain of a CandlestickChart. # The domain data (horizontal axis) for the candlestick chart. String data will be treated as discrete labels, other data will be treated as continuous values.
22981 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
22982 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickDomain.
22983 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
22984 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
22985 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
22986 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
22987 },
22988 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
22989 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
22990 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
22991 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
22992 },
22993 },
22994 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
22995 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
22996 },
22997 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
22998 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
22999 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23000 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23001 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23002 &quot;sheetId&quot;: 42, # The sheet this range is on.
23003 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23004 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23005 },
23006 ],
23007 },
23008 },
23009 },
23010 &quot;data&quot;: [ # The Candlestick chart data. Only one CandlestickData is supported.
23011 { # The Candlestick chart data, each containing the low, open, close, and high values for a series.
23012 &quot;openSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the open/initial value for each candle. This is the bottom of the candle body. If less than the close value the candle will be filled. Otherwise the candle will be hollow.
23013 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
23014 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
23015 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
23016 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
23017 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
23018 },
23019 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
23020 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
23021 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
23022 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
23023 },
23024 },
23025 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
23026 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23027 },
23028 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
23029 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
23030 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23031 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23032 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23033 &quot;sheetId&quot;: 42, # The sheet this range is on.
23034 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23035 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23036 },
23037 ],
23038 },
23039 },
23040 },
23041 &quot;highSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the high/maximum value for each candle. This is the top of the candle&#x27;s center line.
23042 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
23043 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
23044 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
23045 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
23046 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
23047 },
23048 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
23049 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
23050 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
23051 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
23052 },
23053 },
23054 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
23055 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23056 },
23057 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
23058 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
23059 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23060 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23061 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23062 &quot;sheetId&quot;: 42, # The sheet this range is on.
23063 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23064 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23065 },
23066 ],
23067 },
23068 },
23069 },
23070 &quot;lowSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the low/minimum value for each candle. This is the bottom of the candle&#x27;s center line.
23071 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
23072 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
23073 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
23074 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
23075 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
23076 },
23077 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
23078 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
23079 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
23080 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
23081 },
23082 },
23083 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
23084 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23085 },
23086 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
23087 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
23088 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23089 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23090 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23091 &quot;sheetId&quot;: 42, # The sheet this range is on.
23092 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23093 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23094 },
23095 ],
23096 },
23097 },
23098 },
23099 &quot;closeSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the close/final value for each candle. This is the top of the candle body. If greater than the open value the candle will be filled. Otherwise the candle will be hollow.
23100 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
23101 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
23102 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
23103 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
23104 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
23105 },
23106 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
23107 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
23108 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
23109 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
23110 },
23111 },
23112 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
23113 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23114 },
23115 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
23116 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
23117 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23118 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23119 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23120 &quot;sheetId&quot;: 42, # The sheet this range is on.
23121 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23122 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23123 },
23124 ],
23125 },
23126 },
23127 },
23128 },
23129 ],
23130 },
23131 &quot;basicChart&quot;: { # The specification for a basic chart. See BasicChartType for the list of charts this supports. # A basic chart specification, can be one of many kinds of charts. See BasicChartType for the list of all charts this supports.
23132 &quot;domains&quot;: [ # The domain of data this is charting. Only a single domain is supported.
23133 { # The domain of a chart. For example, if charting stock prices over time, this would be the date.
23134 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
23135 &quot;domain&quot;: { # The data included in a domain or series. # The data of the domain. For example, if charting stock prices over time, this is the data representing the dates.
23136 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
23137 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
23138 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
23139 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
23140 },
23141 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
23142 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
23143 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
23144 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
23145 },
23146 },
23147 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
23148 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23149 },
23150 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
23151 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
23152 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23153 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23154 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23155 &quot;sheetId&quot;: 42, # The sheet this range is on.
23156 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23157 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23158 },
23159 ],
23160 },
23161 },
23162 },
23163 ],
23164 &quot;compareMode&quot;: &quot;A String&quot;, # The behavior of tooltips and data highlighting when hovering on data and chart area.
23165 &quot;axis&quot;: [ # The axis on the chart.
23166 { # An axis of the chart. A chart may not have more than one axis per axis position.
23167 &quot;title&quot;: &quot;A String&quot;, # The title of this axis. If set, this overrides any title inferred from headers of the data.
23168 &quot;position&quot;: &quot;A String&quot;, # The position of this axis.
23169 &quot;titleTextPosition&quot;: { # Position settings for text. # The axis title text position.
23170 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
23171 },
23172 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the title. Only valid if the axis is not associated with the domain.
23173 &quot;bold&quot;: True or False, # True if the text is bold.
23174 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
23175 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
23176 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23177 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23178 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23179 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23180 },
23181 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
23182 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23183 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23184 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23185 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23186 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23187 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23188 },
23189 },
23190 &quot;italic&quot;: True or False, # True if the text is italicized.
23191 &quot;underline&quot;: True or False, # True if the text is underlined.
23192 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
23193 &quot;fontSize&quot;: 42, # The size of the font.
23194 },
23195 &quot;viewWindowOptions&quot;: { # The options that define a &quot;view window&quot; for a chart (such as the visible values in an axis). # The view window options for this axis.
23196 &quot;viewWindowMax&quot;: 3.14, # The maximum numeric value to be shown in this view window. If unset, will automatically determine a maximum value that looks good for the data.
23197 &quot;viewWindowMin&quot;: 3.14, # The minimum numeric value to be shown in this view window. If unset, will automatically determine a minimum value that looks good for the data.
23198 &quot;viewWindowMode&quot;: &quot;A String&quot;, # The view window&#x27;s mode.
23199 },
23200 },
23201 ],
23202 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
23203 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type for charts that support vertical stacking. Applies to Area, Bar, Column, Combo, and Stepped Area charts.
23204 &quot;threeDimensional&quot;: True or False, # True to make the chart 3D. Applies to Bar and Column charts.
23205 &quot;interpolateNulls&quot;: True or False, # If some values in a series are missing, gaps may appear in the chart (e.g, segments of lines in a line chart will be missing). To eliminate these gaps set this to true. Applies to Line, Area, and Combo charts.
23206 &quot;series&quot;: [ # The data this chart is visualizing.
23207 { # A single series of data in a chart. For example, if charting stock prices over time, multiple series may exist, one for the &quot;Open Price&quot;, &quot;High Price&quot;, &quot;Low Price&quot; and &quot;Close Price&quot;.
23208 &quot;series&quot;: { # The data included in a domain or series. # The data being visualized in this chart series.
23209 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
23210 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
23211 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
23212 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
23213 },
23214 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
23215 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
23216 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
23217 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
23218 },
23219 },
23220 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
23221 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23222 },
23223 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
23224 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
23225 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23226 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23227 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23228 &quot;sheetId&quot;: 42, # The sheet this range is on.
23229 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23230 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23231 },
23232 ],
23233 },
23234 },
23235 &quot;type&quot;: &quot;A String&quot;, # The type of this series. Valid only if the chartType is COMBO. Different types will change the way the series is visualized. Only LINE, AREA, and COLUMN are supported.
23236 &quot;targetAxis&quot;: &quot;A String&quot;, # The minor axis that will specify the range of values for this series. For example, if charting stocks over time, the &quot;Volume&quot; series may want to be pinned to the right with the prices pinned to the left, because the scale of trading volume is different than the scale of prices. It is an error to specify an axis that isn&#x27;t a valid minor axis for the chart&#x27;s type.
23237 &quot;colorStyle&quot;: { # A color value. # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used. If color is also set, this field takes precedence.
23238 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23239 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23240 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23241 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23242 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23243 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23244 },
23245 },
23246 &quot;lineStyle&quot;: { # Properties that describe the style of a line. # The line style of this series. Valid only if the chartType is AREA, LINE, or SCATTER. COMBO charts are also supported if the series chart type is AREA or LINE.
23247 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
23248 &quot;width&quot;: 42, # The thickness of the line, in px.
23249 },
23250 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used.
23251 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23252 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23253 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23254 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23255 },
23256 },
23257 ],
23258 &quot;chartType&quot;: &quot;A String&quot;, # The type of the chart.
23259 &quot;headerCount&quot;: 42, # The number of rows or columns in the data that are &quot;headers&quot;. If not set, Google Sheets will guess how many rows are headers based on the data. (Note that BasicChartAxis.title may override the axis title inferred from the header values.)
23260 &quot;lineSmoothing&quot;: True or False, # Gets whether all lines should be rendered smooth or straight by default. Applies to Line charts.
23261 },
23262 &quot;subtitleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The subtitle text format. Strikethrough and underline are not supported.
23263 &quot;bold&quot;: True or False, # True if the text is bold.
23264 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
23265 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
23266 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23267 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23268 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23269 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23270 },
23271 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
23272 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23273 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23274 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23275 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23276 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23277 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23278 },
23279 },
23280 &quot;italic&quot;: True or False, # True if the text is italicized.
23281 &quot;underline&quot;: True or False, # True if the text is underlined.
23282 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
23283 &quot;fontSize&quot;: 42, # The size of the font.
23284 },
23285 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the entire chart. Not applicable to Org charts.
23286 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23287 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23288 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23289 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23290 },
23291 },
23292 &quot;chartId&quot;: 42, # The ID of the chart.
23293 },
23294 ],
23295 &quot;slicers&quot;: [ # The slicers on this sheet.
23296 { # A slicer in a sheet.
23297 &quot;slicerId&quot;: 42, # The ID of the slicer.
23298 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the slicer. Note that slicer can be positioned only on existing sheet. Also, width and height of slicer can be automatically adjusted to keep it within permitted limits.
23299 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
23300 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
23301 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
23302 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
23303 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
23304 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
23305 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
23306 },
23307 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
23308 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
23309 },
23310 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
23311 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
23312 },
23313 &quot;spec&quot;: { # The specifications of a slicer. # The specification of the slicer.
23314 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The filtering criteria of the slicer.
23315 &quot;hiddenValues&quot;: [ # Values that should be hidden.
23316 &quot;A String&quot;,
23317 ],
23318 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
23319 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23320 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23321 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23322 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23323 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23324 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23325 },
23326 },
23327 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
23328 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
23329 { # The value of the condition.
23330 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
23331 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
23332 },
23333 ],
23334 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
23335 },
23336 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
23337 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23338 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23339 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23340 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23341 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23342 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23343 },
23344 },
23345 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
23346 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23347 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23348 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23349 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23350 },
23351 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
23352 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23353 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23354 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23355 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23356 },
23357 },
23358 &quot;title&quot;: &quot;A String&quot;, # The title of the slicer.
23359 &quot;dataRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The data range of the slicer.
23360 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23361 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23362 &quot;sheetId&quot;: 42, # The sheet this range is on.
23363 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23364 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23365 },
23366 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format of title in the slicer.
23367 &quot;bold&quot;: True or False, # True if the text is bold.
23368 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
23369 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
23370 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23371 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23372 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23373 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23374 },
23375 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
23376 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23377 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23378 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23379 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23380 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23381 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23382 },
23383 },
23384 &quot;italic&quot;: True or False, # True if the text is italicized.
23385 &quot;underline&quot;: True or False, # True if the text is underlined.
23386 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
23387 &quot;fontSize&quot;: 42, # The size of the font.
23388 },
23389 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the slicer.
23390 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23391 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23392 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23393 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23394 },
23395 &quot;columnIndex&quot;: 42, # The column index in the data table on which the filter is applied to.
23396 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the slicer. If background_color is also set, this field takes precedence.
23397 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23398 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23399 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23400 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23401 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23402 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23403 },
23404 },
23405 &quot;applyToPivotTables&quot;: True or False, # True if the filter should apply to pivot tables. If not set, default to `True`.
23406 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of title in the slicer. If unspecified, defaults to `LEFT`
23407 },
23408 },
23409 ],
23410 &quot;basicFilter&quot;: { # The default filter associated with a sheet. # The filter on this sheet, if any.
23411 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the filter covers.
23412 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23413 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23414 &quot;sheetId&quot;: 42, # The sheet this range is on.
23415 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23416 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23417 },
23418 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
23419 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
23420 &quot;hiddenValues&quot;: [ # Values that should be hidden.
23421 &quot;A String&quot;,
23422 ],
23423 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
23424 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23425 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23426 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23427 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23428 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23429 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23430 },
23431 },
23432 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
23433 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
23434 { # The value of the condition.
23435 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
23436 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
23437 },
23438 ],
23439 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
23440 },
23441 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
23442 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23443 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23444 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23445 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23446 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23447 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23448 },
23449 },
23450 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
23451 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23452 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23453 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23454 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23455 },
23456 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
23457 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23458 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23459 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23460 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23461 },
23462 },
23463 },
23464 &quot;filterSpecs&quot;: [ # The filter criteria per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
23465 { # The filter criteria associated with a specific column.
23466 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
23467 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23468 },
23469 &quot;columnIndex&quot;: 42, # The column index.
23470 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
23471 &quot;hiddenValues&quot;: [ # Values that should be hidden.
23472 &quot;A String&quot;,
23473 ],
23474 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
23475 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23476 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23477 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23478 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23479 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23480 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23481 },
23482 },
23483 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
23484 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
23485 { # The value of the condition.
23486 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
23487 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
23488 },
23489 ],
23490 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
23491 },
23492 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
23493 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23494 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23495 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23496 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23497 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23498 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23499 },
23500 },
23501 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
23502 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23503 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23504 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23505 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23506 },
23507 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
23508 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23509 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23510 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23511 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23512 },
23513 },
23514 },
23515 ],
23516 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
23517 { # A sort order associated with a specific column or row.
23518 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
23519 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23520 },
23521 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
23522 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
23523 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23524 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23525 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23526 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23527 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23528 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23529 },
23530 },
23531 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
23532 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23533 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23534 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23535 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23536 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23537 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23538 },
23539 },
23540 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
23541 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23542 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23543 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23544 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23545 },
23546 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
23547 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
23548 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23549 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23550 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23551 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23552 },
23553 },
23554 ],
23555 },
23556 &quot;merges&quot;: [ # The ranges that are merged together.
23557 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23558 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23559 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23560 &quot;sheetId&quot;: 42, # The sheet this range is on.
23561 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23562 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23563 },
23564 ],
23565 &quot;properties&quot;: { # Properties of a sheet. # The properties of the sheet.
23566 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
23567 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
23568 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
23569 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
23570 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
23571 &quot;rowCount&quot;: 42, # The number of rows in the grid.
23572 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
23573 &quot;columnCount&quot;: 42, # The number of columns in the grid.
23574 },
23575 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
23576 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23577 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23578 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23579 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23580 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23581 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23582 },
23583 },
23584 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
23585 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
23586 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
23587 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
23588 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23589 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23590 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23591 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23592 },
23593 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
23594 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
23595 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
23596 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
23597 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
23598 { # A column in a data source.
23599 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
23600 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23601 },
23602 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
23603 },
23604 ],
23605 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
23606 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
23607 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
23608 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
23609 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
23610 },
23611 },
23612 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
23613 },
23614 &quot;protectedRanges&quot;: [ # The protected ranges in this sheet.
23615 { # A protected range.
23616 &quot;requestingUserCanEdit&quot;: True or False, # True if the user who requested this protected range can edit the protected area. This field is read-only.
23617 &quot;protectedRangeId&quot;: 42, # The ID of the protected range. This field is read-only.
23618 &quot;description&quot;: &quot;A String&quot;, # The description of this protected range.
23619 &quot;warningOnly&quot;: True or False, # True if this protected range will show a warning when editing. Warning-based protection means that every user can edit data in the protected range, except editing will prompt a warning asking the user to confirm the edit. When writing: if this field is true, then editors is ignored. Additionally, if this field is changed from true to false and the `editors` field is not set (nor included in the field mask), then the editors will be set to all the editors in the document.
23620 &quot;editors&quot;: { # The editors of a protected range. # The users and groups with edit access to the protected range. This field is only visible to users with edit access to the protected range and the document. Editors are not supported with warning_only protection.
23621 &quot;domainUsersCanEdit&quot;: True or False, # True if anyone in the document&#x27;s domain has edit access to the protected range. Domain protection is only supported on documents within a domain.
23622 &quot;groups&quot;: [ # The email addresses of groups with edit access to the protected range.
23623 &quot;A String&quot;,
23624 ],
23625 &quot;users&quot;: [ # The email addresses of users with edit access to the protected range.
23626 &quot;A String&quot;,
23627 ],
23628 },
23629 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this protected range is backed by, if any. When writing, only one of range or named_range_id may be set.
23630 &quot;unprotectedRanges&quot;: [ # The list of unprotected ranges within a protected sheet. Unprotected ranges are only supported on protected sheets.
23631 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
23632 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23633 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23634 &quot;sheetId&quot;: 42, # The sheet this range is on.
23635 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23636 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23637 },
23638 ],
23639 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range that is being protected. The range may be fully unbounded, in which case this is considered a protected sheet. When writing, only one of range or named_range_id may be set.
23640 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23641 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23642 &quot;sheetId&quot;: 42, # The sheet this range is on.
23643 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23644 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23645 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070023646 },
23647 ],
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023648 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023649 ],
23650 &quot;properties&quot;: { # Properties of a spreadsheet. # Overall properties of a spreadsheet.
23651 &quot;timeZone&quot;: &quot;A String&quot;, # The time zone of the spreadsheet, in CLDR format such as `America/New_York`. If the time zone isn&#x27;t recognized, this may be a custom time zone such as `GMT-07:00`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023652 &quot;defaultFormat&quot;: { # The format of a cell. # The default format of all cells in the spreadsheet. CellData.effectiveFormat will not be set if the cell&#x27;s format is equal to this default format. This field is read-only.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023653 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
23654 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
23655 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
23656 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
23657 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
23658 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23659 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23660 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23661 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23662 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23663 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23664 },
23665 },
23666 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
23667 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23668 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23669 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23670 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23671 },
23672 },
23673 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
23674 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
23675 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
23676 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
23677 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23678 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23679 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23680 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23681 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23682 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23683 },
23684 },
23685 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
23686 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23687 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23688 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23689 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23690 },
23691 },
23692 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
23693 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
23694 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
23695 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
23696 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23697 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23698 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23699 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23700 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23701 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23702 },
23703 },
23704 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
23705 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23706 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23707 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23708 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23709 },
23710 },
23711 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
23712 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
23713 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
23714 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
23715 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23716 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23717 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23718 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23719 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23720 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23721 },
23722 },
23723 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
23724 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23725 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23726 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23727 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23728 },
23729 },
23730 },
23731 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
23732 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23733 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23734 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23735 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23736 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23737 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23738 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070023739 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023740 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
23741 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023742 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
23743 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
23744 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
23745 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023746 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
23747 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
23748 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
23749 &quot;bold&quot;: True or False, # True if the text is bold.
23750 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
23751 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023752 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23753 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023754 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23755 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023756 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023757 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
23758 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23759 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23760 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23761 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23762 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23763 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23764 },
23765 },
23766 &quot;italic&quot;: True or False, # True if the text is italicized.
23767 &quot;underline&quot;: True or False, # True if the text is underlined.
23768 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
23769 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023770 },
23771 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
23772 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
23773 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070023774 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023775 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
23776 &quot;bottom&quot;: 42, # The bottom padding of the cell.
23777 &quot;top&quot;: 42, # The top padding of the cell.
23778 &quot;right&quot;: 42, # The right padding of the cell.
23779 &quot;left&quot;: 42, # The left padding of the cell.
23780 },
23781 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
23782 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23783 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23784 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23785 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23786 },
23787 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070023788 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023789 &quot;locale&quot;: &quot;A String&quot;, # The locale of the spreadsheet in one of the following formats: * an ISO 639-1 language code such as `en` * an ISO 639-2 language code such as `fil`, if no 639-1 code exists * a combination of the ISO language code and country code, such as `en_US` Note: when updating this field, not all locales/languages are supported.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023790 &quot;iterativeCalculationSettings&quot;: { # Settings to control how circular dependencies are resolved with iterative calculation. # Determines whether and how circular references are resolved with iterative calculation. Absence of this field means that circular references result in calculation errors.
23791 &quot;maxIterations&quot;: 42, # When iterative calculation is enabled, the maximum number of calculation rounds to perform.
23792 &quot;convergenceThreshold&quot;: 3.14, # When iterative calculation is enabled and successive results differ by less than this threshold value, the calculation rounds stop.
23793 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023794 &quot;title&quot;: &quot;A String&quot;, # The title of the spreadsheet.
23795 &quot;spreadsheetTheme&quot;: { # Represents spreadsheet theme # Theme applied to the spreadsheet.
23796 &quot;themeColors&quot;: [ # The spreadsheet theme color pairs. To update you must provide all theme color pairs.
23797 { # A pair mapping a spreadsheet theme color type to the concrete color it represents.
23798 &quot;colorType&quot;: &quot;A String&quot;, # The type of the spreadsheet theme color.
23799 &quot;color&quot;: { # A color value. # The concrete color corresponding to the theme color type.
23800 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
23801 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
23802 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
23803 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
23804 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
23805 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
23806 },
23807 },
23808 },
23809 ],
23810 &quot;primaryFontFamily&quot;: &quot;A String&quot;, # Name of the primary font family.
23811 },
23812 &quot;autoRecalc&quot;: &quot;A String&quot;, # The amount of time to wait before volatile functions are recalculated.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023813 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023814 &quot;dataSourceSchedules&quot;: [ # Output only. A list of data source refresh schedules.
23815 { # Schedule for refreshing the data source. Data sources in the spreadsheet are refreshed within a time interval. You can specify the start time by clicking the Scheduled Refresh button in the Sheets editor, but the interval is fixed at 4 hours. For example, if you specify a start time of 8am , the refresh will take place between 8am and 12pm every day.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023816 &quot;weeklySchedule&quot;: { # A weekly schedule for data to refresh on specific days in a given time interval. # Weekly refresh schedule.
23817 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023818 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023819 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023820 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
23821 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023822 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023823 &quot;daysOfWeek&quot;: [ # Days of the week to refresh. At least one day must be specified.
23824 &quot;A String&quot;,
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023825 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023826 },
23827 &quot;refreshScope&quot;: &quot;A String&quot;, # The scope of the refresh. Must be ALL_DATA_SOURCES.
23828 &quot;dailySchedule&quot;: { # A schedule for data to refresh every day in a given time interval. # Daily refresh schedule.
23829 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023830 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023831 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023832 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
23833 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070023834 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023835 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023836 &quot;enabled&quot;: True or False, # True if the refresh schedule is enabled, or false otherwise.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023837 &quot;monthlySchedule&quot;: { # A monthly schedule for data to refresh on specific days in the month in a given time interval. # Monthly refresh schedule.
23838 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
23839 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
23840 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
23841 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
23842 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023843 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023844 &quot;daysOfMonth&quot;: [ # Days of the month to refresh. Only 1-28 are supported, mapping to the 1st to the 28th day. At lesat one day must be specified.
23845 42,
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023846 ],
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023847 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023848 &quot;nextRun&quot;: { # Represents a time interval, encoded as a Timestamp start (inclusive) and a Timestamp end (exclusive). The start must be less than or equal to the end. When the start equals the end, the interval is empty (matches no time). When both start and end are unspecified, the interval matches any time. # Output only. The time interval of the next run.
23849 &quot;endTime&quot;: &quot;A String&quot;, # Optional. Exclusive end of the interval. If specified, a Timestamp matching this interval will have to be before the end.
23850 &quot;startTime&quot;: &quot;A String&quot;, # Optional. Inclusive start of the interval. If specified, a Timestamp matching this interval will have to be the same or after the start.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070023851 },
23852 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023853 ],
23854 }</pre>
Bu Sun Kim715bd7f2019-06-14 16:50:42 -070023855</div>
23856
23857<div class="method">
Dan O'Mearadd494642020-05-01 07:42:23 -070023858 <code class="details" id="getByDataFilter">getByDataFilter(spreadsheetId, body=None, x__xgafv=None)</code>
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023859 <pre>Returns the spreadsheet at the given ID. The caller must specify the spreadsheet ID. This method differs from GetSpreadsheet in that it allows selecting which subsets of spreadsheet data to return by specifying a dataFilters parameter. Multiple DataFilters can be specified. Specifying one or more data filters will return the portions of the spreadsheet that intersect ranges matched by any of the filters. By default, data within grids will not be returned. You can include grid data one of two ways: * Specify a field mask listing your desired fields using the `fields` URL parameter in HTTP * Set the includeGridData parameter to true. If a field mask is set, the `includeGridData` parameter is ignored For large spreadsheets, it is recommended to retrieve only the specific fields of the spreadsheet that you want.
Bu Sun Kim715bd7f2019-06-14 16:50:42 -070023860
23861Args:
23862 spreadsheetId: string, The spreadsheet to request. (required)
Dan O'Mearadd494642020-05-01 07:42:23 -070023863 body: object, The request body.
Bu Sun Kim715bd7f2019-06-14 16:50:42 -070023864 The object takes the form of:
23865
23866{ # The request for retrieving a Spreadsheet.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023867 &quot;includeGridData&quot;: True or False, # True if grid data should be returned. This parameter is ignored if a field mask was set in the request.
23868 &quot;dataFilters&quot;: [ # The DataFilters used to select which ranges to retrieve from the spreadsheet.
23869 { # Filter that describes what data should be selected or returned from a request.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023870 &quot;developerMetadataLookup&quot;: { # Selects DeveloperMetadata that matches all of the specified fields. For example, if only a metadata ID is specified this considers the DeveloperMetadata with that particular unique ID. If a metadata key is specified, this considers all developer metadata with that key. If a key, visibility, and location type are all specified, this considers all developer metadata with that key and visibility that are associated with a location of that type. In general, this selects all DeveloperMetadata that matches the intersection of all the specified fields; any field or combination of fields may be specified. # Selects data associated with the developer metadata matching the criteria described by this DeveloperMetadataLookup.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023871 &quot;metadataKey&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_key.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023872 &quot;metadataValue&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_value.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023873 &quot;metadataLocation&quot;: { # A location where metadata may be associated in a spreadsheet. # Limits the selected developer metadata to those entries associated with the specified location. This field either matches exact locations or all intersecting locations according the specified locationMatchingStrategy.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070023874 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
Bu Sun Kim4ed7d3f2020-05-27 12:20:54 -070023875 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
Bu Sun Kimd059ad82020-07-22 17:02:09 -070023876 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023877 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023878 &quot;sheetId&quot;: 42, # The sheet this span is on.
Bu Sun Kim4ed7d3f2020-05-27 12:20:54 -070023879 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023880 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
23881 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023882 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
Bu Sun Kim4ed7d3f2020-05-27 12:20:54 -070023883 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080023884 &quot;visibility&quot;: &quot;A String&quot;, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.visibility. If left unspecified, all developer metadata visibile to the requesting project is considered.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070023885 &quot;metadataId&quot;: 42, # Limits the selected developer metadata to that which has a matching DeveloperMetadata.metadata_id.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023886 &quot;locationType&quot;: &quot;A String&quot;, # Limits the selected developer metadata to those entries which are associated with locations of the specified type. For example, when this field is specified as ROW this lookup only considers developer metadata associated on rows. If the field is left unspecified, all location types are considered. This field cannot be specified as SPREADSHEET when the locationMatchingStrategy is specified as INTERSECTING or when the metadataLocation is specified as a non-spreadsheet location: spreadsheet metadata cannot intersect any other developer metadata location. This field also must be left unspecified when the locationMatchingStrategy is specified as EXACT.
23887 &quot;locationMatchingStrategy&quot;: &quot;A String&quot;, # Determines how this lookup matches the location. If this field is specified as EXACT, only developer metadata associated on the exact location specified is matched. If this field is specified to INTERSECTING, developer metadata associated on intersecting locations is also matched. If left unspecified, this field assumes a default value of INTERSECTING. If this field is specified, a metadataLocation must also be specified.
Bu Sun Kim4ed7d3f2020-05-27 12:20:54 -070023888 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023889 &quot;gridRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # Selects data that matches the range described by the GridRange.
23890 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23891 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23892 &quot;sheetId&quot;: 42, # The sheet this range is on.
23893 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23894 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23895 },
23896 &quot;a1Range&quot;: &quot;A String&quot;, # Selects data that matches the specified A1 range.
Bu Sun Kim715bd7f2019-06-14 16:50:42 -070023897 },
23898 ],
Bu Sun Kim715bd7f2019-06-14 16:50:42 -070023899 }
23900
23901 x__xgafv: string, V1 error format.
23902 Allowed values
23903 1 - v1 error format
23904 2 - v2 error format
23905
23906Returns:
23907 An object of the form:
23908
23909 { # Resource that represents a spreadsheet.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080023910 &quot;spreadsheetId&quot;: &quot;A String&quot;, # The ID of the spreadsheet. This field is read-only.
23911 &quot;dataSources&quot;: [ # A list of external data sources connected with the spreadsheet.
23912 { # Information about an external data source in the spreadsheet.
23913 &quot;calculatedColumns&quot;: [ # All calculated columns in the data source.
23914 { # A column in a data source.
23915 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
23916 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
23917 },
23918 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
23919 },
23920 ],
23921 &quot;dataSourceId&quot;: &quot;A String&quot;, # The spreadsheet-scoped unique ID that identifies the data source. Example: 1080547365.
23922 &quot;sheetId&quot;: 42, # The ID of the Sheet connected with the data source. The field cannot be changed once set. When creating a data source, an associated DATA_SOURCE sheet is also created, if the field is not specified, the ID of the created sheet will be randomly generated.
23923 &quot;spec&quot;: { # This specifies the details of the data source. For example, for BigQuery, this specifies information about the BigQuery source. # The DataSourceSpec for the data source connected with this spreadsheet.
23924 &quot;parameters&quot;: [ # The parameters of the data source, used when querying the data source.
23925 { # A parameter in a data source&#x27;s query. The parameter allows the user to pass in values from the spreadsheet into a query.
23926 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # A range that contains the value of the parameter. Its size must be 1x1.
23927 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23928 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23929 &quot;sheetId&quot;: 42, # The sheet this range is on.
23930 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23931 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23932 },
23933 &quot;name&quot;: &quot;A String&quot;, # Named parameter. Must be a legitimate identifier for the DataSource that supports it. For example, [BigQuery identifier](https://cloud.google.com/bigquery/docs/reference/standard-sql/lexical#identifiers).
23934 &quot;namedRangeId&quot;: &quot;A String&quot;, # ID of a NamedRange. Its size must be 1x1.
23935 },
23936 ],
23937 &quot;bigQuery&quot;: { # The specification of a BigQuery data source that&#x27;s connected to a sheet. # A BigQueryDataSourceSpec.
23938 &quot;projectId&quot;: &quot;A String&quot;, # The ID of a BigQuery enabled GCP project with a billing account attached. For any queries executed against the data source, the project is charged.
23939 &quot;tableSpec&quot;: { # Specifies a BigQuery table definition. Only [native tables](https://cloud.google.com/bigquery/docs/tables-intro) is allowed. # A BigQueryTableSpec.
23940 &quot;tableId&quot;: &quot;A String&quot;, # The BigQuery table id.
23941 &quot;tableProjectId&quot;: &quot;A String&quot;, # The ID of a BigQuery project the table belongs to. If not specified, the project_id is assumed.
23942 &quot;datasetId&quot;: &quot;A String&quot;, # The BigQuery dataset id.
23943 },
23944 &quot;querySpec&quot;: { # Specifies a custom BigQuery query. # A BigQueryQuerySpec.
23945 &quot;rawQuery&quot;: &quot;A String&quot;, # The raw query string.
23946 },
23947 },
23948 },
23949 },
23950 ],
23951 &quot;developerMetadata&quot;: [ # The developer metadata associated with a spreadsheet.
23952 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
23953 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
23954 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
23955 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
23956 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
23957 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
23958 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
23959 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
23960 &quot;sheetId&quot;: 42, # The sheet this span is on.
23961 },
23962 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
23963 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
23964 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
23965 },
23966 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
23967 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
23968 },
23969 ],
23970 &quot;namedRanges&quot;: [ # The named ranges defined in a spreadsheet.
23971 { # A named range.
23972 &quot;namedRangeId&quot;: &quot;A String&quot;, # The ID of the named range.
23973 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this represents.
23974 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
23975 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
23976 &quot;sheetId&quot;: 42, # The sheet this range is on.
23977 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
23978 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
23979 },
23980 &quot;name&quot;: &quot;A String&quot;, # The name of the named range.
23981 },
23982 ],
23983 &quot;spreadsheetUrl&quot;: &quot;A String&quot;, # The url of the spreadsheet. This field is read-only.
23984 &quot;sheets&quot;: [ # The sheets that are part of a spreadsheet.
23985 { # A sheet in a spreadsheet.
23986 &quot;rowGroups&quot;: [ # All row groups on this sheet, ordered by increasing range start index, then by group depth.
23987 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
23988 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
23989 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
23990 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
23991 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
23992 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
23993 &quot;sheetId&quot;: 42, # The sheet this span is on.
23994 },
23995 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
23996 },
23997 ],
23998 &quot;bandedRanges&quot;: [ # The banded (alternating colors) ranges on this sheet.
23999 { # A banded (alternating colors) range in a sheet.
24000 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range over which these properties are applied.
24001 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
24002 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
24003 &quot;sheetId&quot;: 42, # The sheet this range is on.
24004 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
24005 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
24006 },
24007 &quot;columnProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for column bands. These properties are applied on a column- by-column basis throughout all the columns in the range. At least one of row_properties or column_properties must be specified.
24008 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080024009 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24010 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080024011 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24012 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080024013 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080024014 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
24015 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24016 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24017 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24018 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24019 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24020 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24021 },
24022 },
24023 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
24024 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24025 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24026 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24027 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24028 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24029 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24030 },
24031 },
24032 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
24033 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24034 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24035 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24036 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24037 },
24038 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
24039 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24040 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24041 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24042 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24043 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24044 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24045 },
24046 },
24047 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
24048 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24049 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24050 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24051 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24052 },
24053 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
24054 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24055 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24056 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24057 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24058 },
24059 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
24060 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24061 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24062 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24063 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24064 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24065 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24066 },
24067 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070024068 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080024069 &quot;rowProperties&quot;: { # Properties referring a single dimension (either row or column). If both BandedRange.row_properties and BandedRange.column_properties are set, the fill colors are applied to cells according to the following rules: * header_color and footer_color take priority over band colors. * first_band_color takes priority over second_band_color. * row_properties takes priority over column_properties. For example, the first row color takes priority over the first column color, but the first column color takes priority over the second row color. Similarly, the row header takes priority over the column header in the top left cell, but the column header takes priority over the first row color if the row header is not set. # Properties for row bands. These properties are applied on a row-by-row basis throughout all the rows in the range. At least one of row_properties or column_properties must be specified.
24070 &quot;footerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column.
24071 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24072 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24073 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24074 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24075 },
24076 &quot;footerColorStyle&quot;: { # A color value. # The color of the last row or column. If this field is not set, the last row or column is filled with either first_band_color or second_band_color, depending on the color of the previous row or column. If footer_color is also set, this field takes precedence.
24077 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24078 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24079 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24080 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24081 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24082 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24083 },
24084 },
24085 &quot;firstBandColorStyle&quot;: { # A color value. # The first color that is alternating. (Required) If first_band_color is also set, this field takes precedence.
24086 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24087 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24088 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24089 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24090 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24091 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24092 },
24093 },
24094 &quot;secondBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The second color that is alternating. (Required)
24095 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24096 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24097 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24098 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24099 },
24100 &quot;headerColorStyle&quot;: { # A color value. # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would. If header_color is also set, this field takes precedence.
24101 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24102 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24103 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24104 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24105 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24106 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24107 },
24108 },
24109 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the first row or column. If this field is set, the first row or column is filled with this color and the colors alternate between first_band_color and second_band_color starting from the second row or column. Otherwise, the first row or column is filled with first_band_color and the colors proceed to alternate as they normally would.
24110 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24111 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24112 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24113 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24114 },
24115 &quot;firstBandColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The first color that is alternating. (Required)
24116 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24117 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24118 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24119 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24120 },
24121 &quot;secondBandColorStyle&quot;: { # A color value. # The second color that is alternating. (Required) If second_band_color is also set, this field takes precedence.
24122 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24123 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24124 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24125 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24126 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24127 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24128 },
24129 },
24130 },
24131 &quot;bandedRangeId&quot;: 42, # The id of the banded range.
24132 },
24133 ],
24134 &quot;conditionalFormats&quot;: [ # The conditional format rules in this sheet.
24135 { # A rule describing a conditional format.
24136 &quot;ranges&quot;: [ # The ranges that are formatted if the condition is true. All the ranges must be on the same grid.
24137 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
24138 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
24139 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
24140 &quot;sheetId&quot;: 42, # The sheet this range is on.
24141 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
24142 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
24143 },
24144 ],
24145 &quot;booleanRule&quot;: { # A rule that may or may not match, depending on the condition. # The formatting is either &quot;on&quot; or &quot;off&quot; according to the rule.
24146 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition of the rule. If the condition evaluates to true, the format is applied.
24147 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
24148 { # The value of the condition.
24149 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
24150 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
24151 },
24152 ],
24153 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
24154 },
24155 &quot;format&quot;: { # The format of a cell. # The format to apply. Conditional formatting can only apply a subset of formatting: bold, italic, strikethrough, foreground color &amp; background color.
24156 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
24157 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
24158 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24159 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24160 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24161 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24162 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24163 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24164 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24165 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24166 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24167 },
24168 },
24169 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24170 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24171 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24172 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24173 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24174 },
24175 },
24176 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
24177 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24178 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24179 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24180 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24181 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24182 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24183 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24184 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24185 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24186 },
24187 },
24188 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24189 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24190 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24191 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24192 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24193 },
24194 },
24195 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
24196 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24197 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24198 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24199 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24200 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24201 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24202 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24203 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24204 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24205 },
24206 },
24207 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24208 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24209 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24210 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24211 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24212 },
24213 },
24214 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
24215 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24216 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24217 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24218 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24219 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24220 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24221 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24222 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24223 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24224 },
24225 },
24226 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24227 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24228 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24229 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24230 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24231 },
24232 },
24233 },
24234 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
24235 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24236 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24237 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24238 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24239 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24240 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24241 },
24242 },
24243 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
24244 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
24245 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
24246 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
24247 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
24248 },
24249 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
24250 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
24251 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
24252 &quot;bold&quot;: True or False, # True if the text is bold.
24253 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
24254 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
24255 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24256 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24257 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24258 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24259 },
24260 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
24261 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24262 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24263 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24264 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24265 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24266 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24267 },
24268 },
24269 &quot;italic&quot;: True or False, # True if the text is italicized.
24270 &quot;underline&quot;: True or False, # True if the text is underlined.
24271 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
24272 &quot;fontSize&quot;: 42, # The size of the font.
24273 },
24274 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
24275 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
24276 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
24277 },
24278 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
24279 &quot;bottom&quot;: 42, # The bottom padding of the cell.
24280 &quot;top&quot;: 42, # The top padding of the cell.
24281 &quot;right&quot;: 42, # The right padding of the cell.
24282 &quot;left&quot;: 42, # The left padding of the cell.
24283 },
24284 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
24285 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24286 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24287 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24288 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24289 },
24290 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
24291 },
24292 },
24293 &quot;gradientRule&quot;: { # A rule that applies a gradient color scale format, based on the interpolation points listed. The format of a cell will vary based on its contents as compared to the values of the interpolation points. # The formatting will vary based on the gradients in the rule.
24294 &quot;midpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # An optional midway interpolation point.
24295 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
24296 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24297 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24298 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24299 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24300 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24301 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24302 },
24303 },
24304 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
24305 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24306 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24307 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24308 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24309 },
24310 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
24311 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
24312 },
24313 &quot;minpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The starting interpolation point.
24314 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
24315 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24316 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24317 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24318 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24319 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24320 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24321 },
24322 },
24323 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
24324 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24325 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24326 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24327 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24328 },
24329 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
24330 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
24331 },
24332 &quot;maxpoint&quot;: { # A single interpolation point on a gradient conditional format. These pin the gradient color scale according to the color, type and value chosen. # The final interpolation point.
24333 &quot;colorStyle&quot;: { # A color value. # The color this interpolation point should use. If color is also set, this field takes precedence.
24334 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24335 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24336 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24337 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24338 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24339 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24340 },
24341 },
24342 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color this interpolation point should use.
24343 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24344 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24345 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24346 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24347 },
24348 &quot;type&quot;: &quot;A String&quot;, # How the value should be interpreted.
24349 &quot;value&quot;: &quot;A String&quot;, # The value this interpolation point uses. May be a formula. Unused if type is MIN or MAX.
24350 },
24351 },
24352 },
24353 ],
24354 &quot;data&quot;: [ # Data in the grid, if this is a grid sheet. The number of GridData objects returned is dependent on the number of ranges requested on this sheet. For example, if this is representing `Sheet1`, and the spreadsheet was requested with ranges `Sheet1!A1:C10` and `Sheet1!D15:E20`, then the first GridData will have a startRow/startColumn of `0`, while the second one will have `startRow 14` (zero-based row 15), and `startColumn 3` (zero-based column D). For a DATA_SOURCE sheet, you can not request a specific range, the GridData contains all the values.
24355 { # Data in the grid, as well as metadata about the dimensions.
24356 &quot;columnMetadata&quot;: [ # Metadata about the requested columns in the grid, starting with the column in start_column.
24357 { # Properties about a dimension.
24358 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
24359 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
24360 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
24361 },
24362 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
24363 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
24364 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
24365 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
24366 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
24367 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
24368 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
24369 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
24370 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
24371 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
24372 &quot;sheetId&quot;: 42, # The sheet this span is on.
24373 },
24374 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
24375 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
24376 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
24377 },
24378 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
24379 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
24380 },
24381 ],
24382 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
24383 },
24384 ],
24385 &quot;startRow&quot;: 42, # The first row this GridData refers to, zero-based.
24386 &quot;rowData&quot;: [ # The data in the grid, one entry per row, starting with the row in startRow. The values in RowData will correspond to columns starting at start_column.
24387 { # Data about each cell in a row.
24388 &quot;values&quot;: [ # The values in the row, one per column.
24389 { # Data about a specific cell.
24390 &quot;effectiveValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The effective value of the cell. For cells with formulas, this is the calculated value. For cells with literals, this is the same as the user_entered_value. This field is read-only.
24391 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
24392 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
24393 &quot;type&quot;: &quot;A String&quot;, # The type of error.
24394 },
24395 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
24396 &quot;boolValue&quot;: True or False, # Represents a boolean value.
24397 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
24398 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
24399 },
24400 &quot;formattedValue&quot;: &quot;A String&quot;, # The formatted value of the cell. This is the value as it&#x27;s shown to the user. This field is read-only.
24401 &quot;userEnteredFormat&quot;: { # The format of a cell. # The format the user entered for the cell. When writing, the new format will be merged with the existing format.
24402 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
24403 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
24404 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24405 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24406 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24407 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24408 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24409 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24410 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24411 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24412 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24413 },
24414 },
24415 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24416 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24417 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24418 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24419 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24420 },
24421 },
24422 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
24423 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24424 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24425 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24426 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24427 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24428 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24429 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24430 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24431 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24432 },
24433 },
24434 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24435 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24436 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24437 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24438 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24439 },
24440 },
24441 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
24442 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24443 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24444 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24445 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24446 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24447 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24448 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24449 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24450 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24451 },
24452 },
24453 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24454 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24455 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24456 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24457 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24458 },
24459 },
24460 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
24461 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24462 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24463 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24464 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24465 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24466 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24467 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24468 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24469 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24470 },
24471 },
24472 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24473 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24474 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24475 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24476 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24477 },
24478 },
24479 },
24480 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
24481 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24482 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24483 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24484 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24485 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24486 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24487 },
24488 },
24489 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
24490 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
24491 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
24492 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
24493 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
24494 },
24495 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
24496 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
24497 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
24498 &quot;bold&quot;: True or False, # True if the text is bold.
24499 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
24500 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
24501 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24502 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24503 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24504 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24505 },
24506 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
24507 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24508 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24509 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24510 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24511 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24512 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24513 },
24514 },
24515 &quot;italic&quot;: True or False, # True if the text is italicized.
24516 &quot;underline&quot;: True or False, # True if the text is underlined.
24517 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
24518 &quot;fontSize&quot;: 42, # The size of the font.
24519 },
24520 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
24521 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
24522 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
24523 },
24524 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
24525 &quot;bottom&quot;: 42, # The bottom padding of the cell.
24526 &quot;top&quot;: 42, # The top padding of the cell.
24527 &quot;right&quot;: 42, # The right padding of the cell.
24528 &quot;left&quot;: 42, # The left padding of the cell.
24529 },
24530 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
24531 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24532 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24533 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24534 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24535 },
24536 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
24537 },
24538 &quot;textFormatRuns&quot;: [ # Runs of rich text applied to subsections of the cell. Runs are only valid on user entered strings, not formulas, bools, or numbers. Properties of a run start at a specific index in the text and continue until the next run. Runs will inherit the properties of the cell unless explicitly changed. When writing, the new runs will overwrite any prior runs. When writing a new user_entered_value, previous runs are erased.
24539 { # A run of a text format. The format of this run continues until the start index of the next run. When updating, all fields must be set.
24540 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of this run. Absent values inherit the cell&#x27;s format.
24541 &quot;bold&quot;: True or False, # True if the text is bold.
24542 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
24543 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
24544 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24545 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24546 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24547 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24548 },
24549 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
24550 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24551 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24552 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24553 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24554 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24555 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24556 },
24557 },
24558 &quot;italic&quot;: True or False, # True if the text is italicized.
24559 &quot;underline&quot;: True or False, # True if the text is underlined.
24560 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
24561 &quot;fontSize&quot;: 42, # The size of the font.
24562 },
24563 &quot;startIndex&quot;: 42, # The character index where this run starts.
24564 },
24565 ],
24566 &quot;hyperlink&quot;: &quot;A String&quot;, # A hyperlink this cell points to, if any. If the cell contains multiple hyperlinks, this field will be empty. This field is read-only. To set it, use a `=HYPERLINK` formula in the userEnteredValue.formulaValue field.
24567 &quot;dataSourceTable&quot;: { # A data source table, which allows the user to import a static table of data from the DataSource into Sheets. This is also known as &quot;Extract&quot; in the Sheets editor. # A data source table anchored at this cell. The size of data source table itself is computed dynamically based on its configuration. Only the first cell of the data source table contains the data source table definition. The other cells will contain the display values of the data source table result in their effective_value fields.
24568 &quot;columns&quot;: [ # Columns selected for the data source table. The column_selection_type must be SELECTED.
24569 { # An unique identifier that references a data source column.
24570 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
24571 },
24572 ],
24573 &quot;sortSpecs&quot;: [ # Sort specifications in the data source table. The result of the data source table is sorted based on the sort specifications in order.
24574 { # A sort order associated with a specific column or row.
24575 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
24576 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
24577 },
24578 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
24579 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
24580 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24581 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24582 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24583 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24584 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24585 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24586 },
24587 },
24588 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
24589 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24590 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24591 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24592 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24593 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24594 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24595 },
24596 },
24597 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
24598 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24599 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24600 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24601 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24602 },
24603 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
24604 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
24605 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24606 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24607 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24608 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24609 },
24610 },
24611 ],
24612 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the data source table is associated with.
24613 &quot;columnSelectionType&quot;: &quot;A String&quot;, # The type to select columns for the data source table. Defaults to SELECTED.
24614 &quot;rowLimit&quot;: 42, # The limit of rows to return. If not set, a default limit is applied. Please refer to the Sheets editor for the default and max limit.
24615 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
24616 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
24617 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
24618 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
24619 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
24620 },
24621 &quot;filterSpecs&quot;: [ # Filter specifications in the data source table.
24622 { # The filter criteria associated with a specific column.
24623 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
24624 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
24625 },
24626 &quot;columnIndex&quot;: 42, # The column index.
24627 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
24628 &quot;hiddenValues&quot;: [ # Values that should be hidden.
24629 &quot;A String&quot;,
24630 ],
24631 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
24632 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24633 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24634 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24635 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24636 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24637 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24638 },
24639 },
24640 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
24641 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
24642 { # The value of the condition.
24643 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
24644 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
24645 },
24646 ],
24647 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
24648 },
24649 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
24650 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24651 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24652 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24653 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24654 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24655 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24656 },
24657 },
24658 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
24659 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24660 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24661 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24662 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24663 },
24664 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
24665 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24666 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24667 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24668 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24669 },
24670 },
24671 },
24672 ],
24673 },
24674 &quot;dataSourceFormula&quot;: { # A data source formula. # Output only. Information about a data source formula on the cell. The field is set if user_entered_value is a formula referencing some DATA_SOURCE sheet, e.g `=SUM(DataSheet!Column)`.
24675 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
24676 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
24677 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
24678 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
24679 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
24680 },
24681 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the formula is associated with.
24682 },
24683 &quot;userEnteredValue&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The value the user entered in the cell. e.g, `1234`, `&#x27;Hello&#x27;`, or `=NOW()` Note: Dates, Times and DateTimes are represented as doubles in serial number format.
24684 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
24685 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
24686 &quot;type&quot;: &quot;A String&quot;, # The type of error.
24687 },
24688 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
24689 &quot;boolValue&quot;: True or False, # Represents a boolean value.
24690 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
24691 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
24692 },
24693 &quot;note&quot;: &quot;A String&quot;, # Any note on the cell.
24694 &quot;dataValidation&quot;: { # A data validation rule. # A data validation rule on the cell, if any. When writing, the new data validation rule will overwrite any prior rule.
24695 &quot;strict&quot;: True or False, # True if invalid data should be rejected.
24696 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # The condition that data in the cell must match.
24697 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
24698 { # The value of the condition.
24699 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
24700 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
24701 },
24702 ],
24703 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
24704 },
24705 &quot;inputMessage&quot;: &quot;A String&quot;, # A message to show the user when adding data to the cell.
24706 &quot;showCustomUi&quot;: True or False, # True if the UI should be customized based on the kind of condition. If true, &quot;List&quot; conditions will show a dropdown.
24707 },
24708 &quot;effectiveFormat&quot;: { # The format of a cell. # The effective format being used by the cell. This includes the results of applying any conditional formatting and, if the cell contains a formula, the computed number format. If the effective format is the default format, effective format will not be written. This field is read-only.
24709 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
24710 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
24711 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24712 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24713 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24714 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24715 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24716 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24717 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24718 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24719 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24720 },
24721 },
24722 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24723 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24724 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24725 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24726 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24727 },
24728 },
24729 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
24730 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24731 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24732 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24733 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24734 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24735 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24736 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24737 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24738 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24739 },
24740 },
24741 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24742 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24743 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24744 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24745 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24746 },
24747 },
24748 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
24749 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24750 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24751 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24752 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24753 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24754 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24755 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24756 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24757 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24758 },
24759 },
24760 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24761 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24762 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24763 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24764 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24765 },
24766 },
24767 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
24768 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
24769 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
24770 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
24771 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24772 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24773 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24774 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24775 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24776 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24777 },
24778 },
24779 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
24780 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24781 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24782 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24783 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24784 },
24785 },
24786 },
24787 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
24788 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24789 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24790 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24791 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24792 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24793 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24794 },
24795 },
24796 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
24797 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
24798 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
24799 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
24800 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
24801 },
24802 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
24803 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
24804 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
24805 &quot;bold&quot;: True or False, # True if the text is bold.
24806 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
24807 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
24808 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24809 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24810 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24811 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24812 },
24813 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
24814 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
24815 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
24816 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24817 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24818 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24819 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24820 },
24821 },
24822 &quot;italic&quot;: True or False, # True if the text is italicized.
24823 &quot;underline&quot;: True or False, # True if the text is underlined.
24824 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
24825 &quot;fontSize&quot;: 42, # The size of the font.
24826 },
24827 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
24828 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
24829 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
24830 },
24831 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
24832 &quot;bottom&quot;: 42, # The bottom padding of the cell.
24833 &quot;top&quot;: 42, # The top padding of the cell.
24834 &quot;right&quot;: 42, # The right padding of the cell.
24835 &quot;left&quot;: 42, # The left padding of the cell.
24836 },
24837 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
24838 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
24839 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
24840 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
24841 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
24842 },
24843 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
24844 },
24845 &quot;pivotTable&quot;: { # A pivot table. # A pivot table anchored at this cell. The size of pivot table itself is computed dynamically based on its data, grouping, filters, values, etc. Only the top-left cell of the pivot table contains the pivot table definition. The other cells will contain the calculated values of the results of the pivot in their effective_value fields.
24846 &quot;criteria&quot;: { # An optional mapping of filters per source column offset. The filters are applied before aggregating data into the pivot table. The map&#x27;s key is the column offset of the source range that you want to filter, and the value is the criteria for that column. For example, if the source was `C10:E15`, a key of `0` will have the filter for column `C`, whereas the key `1` is for column `D`. This field is deprecated in favor of filter_specs.
24847 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a pivot table.
24848 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
24849 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
24850 { # The value of the condition.
24851 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
24852 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
24853 },
24854 ],
24855 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
24856 },
24857 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
24858 &quot;A String&quot;,
24859 ],
24860 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
24861 },
24862 },
24863 &quot;source&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the pivot table is reading data from.
24864 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
24865 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
24866 &quot;sheetId&quot;: 42, # The sheet this range is on.
24867 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
24868 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
24869 },
24870 &quot;columns&quot;: [ # Each column grouping in the pivot table.
24871 { # A single grouping (either row or column) in a pivot table.
24872 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
24873 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
24874 { # Metadata about a value in a pivot grouping.
24875 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
24876 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
24877 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
24878 &quot;type&quot;: &quot;A String&quot;, # The type of error.
24879 },
24880 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
24881 &quot;boolValue&quot;: True or False, # Represents a boolean value.
24882 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
24883 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
24884 },
24885 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
24886 },
24887 ],
24888 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
24889 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
24890 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
24891 &quot;countLimit&quot;: 42, # The count limit.
24892 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
24893 },
24894 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
24895 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
24896 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
24897 { # The kinds of value that a cell in a spreadsheet can have.
24898 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
24899 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
24900 &quot;type&quot;: &quot;A String&quot;, # The type of error.
24901 },
24902 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
24903 &quot;boolValue&quot;: True or False, # Represents a boolean value.
24904 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
24905 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
24906 },
24907 ],
24908 },
24909 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
24910 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
24911 },
24912 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
24913 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
24914 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
24915 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
24916 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
24917 },
24918 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
24919 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
24920 { # A group name and a list of items from the source data that should be placed in the group with this name.
24921 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
24922 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
24923 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
24924 &quot;type&quot;: &quot;A String&quot;, # The type of error.
24925 },
24926 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
24927 &quot;boolValue&quot;: True or False, # Represents a boolean value.
24928 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
24929 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
24930 },
24931 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
24932 { # The kinds of value that a cell in a spreadsheet can have.
24933 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
24934 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
24935 &quot;type&quot;: &quot;A String&quot;, # The type of error.
24936 },
24937 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
24938 &quot;boolValue&quot;: True or False, # Represents a boolean value.
24939 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
24940 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
24941 },
24942 ],
24943 },
24944 ],
24945 },
24946 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
24947 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
24948 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
24949 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
24950 },
24951 },
24952 },
24953 ],
24954 &quot;dataSourceId&quot;: &quot;A String&quot;, # The ID of the data source the pivot table is reading data from.
24955 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status for data source pivot tables.
24956 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
24957 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
24958 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
24959 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
24960 },
24961 &quot;values&quot;: [ # A list of values to include in the pivot table.
24962 { # The definition of how a value in a pivot table should be calculated.
24963 &quot;summarizeFunction&quot;: &quot;A String&quot;, # A function to summarize the value. If formula is set, the only supported values are SUM and CUSTOM. If sourceColumnOffset is set, then `CUSTOM` is not supported.
24964 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that this value reads from.
24965 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
24966 },
24967 &quot;name&quot;: &quot;A String&quot;, # A name to use for the value.
24968 &quot;calculatedDisplayType&quot;: &quot;A String&quot;, # If specified, indicates that pivot values should be displayed as the result of a calculation with another pivot value. For example, if calculated_display_type is specified as PERCENT_OF_GRAND_TOTAL, all the pivot values are displayed as the percentage of the grand total. In the Sheets editor, this is referred to as &quot;Show As&quot; in the value section of a pivot table.
24969 &quot;formula&quot;: &quot;A String&quot;, # A custom formula to calculate the value. The formula must start with an `=` character.
24970 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this value reads from. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this value refers to column `C`, whereas the offset `1` would refer to column `D`.
24971 },
24972 ],
24973 &quot;filterSpecs&quot;: [ # The filters applied to the source columns before aggregating data for the pivot table. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
24974 { # The pivot table filter criteria associated with a specific source column offset.
24975 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a pivot table. # The criteria for the column.
24976 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (`visibleValues` does not override this -- even if a value is listed there, it is still hidden if it does not meet the condition.) Condition values that refer to ranges in A1-notation are evaluated relative to the pivot table sheet. References are treated absolutely, so are not filled down the pivot table. For example, a condition value of `=A1` on &quot;Pivot Table 1&quot; is treated as `&#x27;Pivot Table 1&#x27;!$A$1`. The source data of the pivot table can be referenced by column header name. For example, if the source data has columns named &quot;Revenue&quot; and &quot;Cost&quot; and a condition is applied to the &quot;Revenue&quot; column with type `NUMBER_GREATER` and value `=Cost`, then only columns where &quot;Revenue&quot; &gt; &quot;Cost&quot; are included.
24977 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
24978 { # The value of the condition.
24979 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
24980 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
24981 },
24982 ],
24983 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
24984 },
24985 &quot;visibleValues&quot;: [ # Values that should be included. Values not listed here are excluded.
24986 &quot;A String&quot;,
24987 ],
24988 &quot;visibleByDefault&quot;: True or False, # Whether values are visible by default. If true, the visible_values are ignored, all values that meet condition (if specified) are shown. If false, values that are both in visible_values and meet condition are shown.
24989 },
24990 &quot;columnOffsetIndex&quot;: 42, # The column offset of the source range.
24991 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column.
24992 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
24993 },
24994 },
24995 ],
24996 &quot;valueLayout&quot;: &quot;A String&quot;, # Whether values should be listed horizontally (as columns) or vertically (as rows).
24997 &quot;rows&quot;: [ # Each row grouping in the pivot table.
24998 { # A single grouping (either row or column) in a pivot table.
24999 &quot;label&quot;: &quot;A String&quot;, # The labels to use for the row/column groups which can be customized. For example, in the following pivot table, the row label is `Region` (which could be renamed to `State`) and the column label is `Product` (which could be renamed `Item`). Pivot tables created before December 2017 do not have header labels. If you&#x27;d like to add header labels to an existing pivot table, please delete the existing pivot table and then create a new pivot table with same parameters. +--------------+---------+-------+ | SUM of Units | Product | | | Region | Pen | Paper | +--------------+---------+-------+ | New York | 345 | 98 | | Oregon | 234 | 123 | | Tennessee | 531 | 415 | +--------------+---------+-------+ | Grand Total | 1110 | 636 | +--------------+---------+-------+
25000 &quot;valueMetadata&quot;: [ # Metadata about values in the grouping.
25001 { # Metadata about a value in a pivot grouping.
25002 &quot;value&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The calculated value the metadata corresponds to. (Note that formulaValue is not valid, because the values will be calculated.)
25003 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
25004 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
25005 &quot;type&quot;: &quot;A String&quot;, # The type of error.
25006 },
25007 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
25008 &quot;boolValue&quot;: True or False, # Represents a boolean value.
25009 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
25010 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
25011 },
25012 &quot;collapsed&quot;: True or False, # True if the data corresponding to the value is collapsed.
25013 },
25014 ],
25015 &quot;sortOrder&quot;: &quot;A String&quot;, # The order the values in this group should be sorted.
25016 &quot;sourceColumnOffset&quot;: 42, # The column offset of the source range that this grouping is based on. For example, if the source was `C10:E15`, a `sourceColumnOffset` of `0` means this group refers to column `C`, whereas the offset `1` would refer to column `D`.
25017 &quot;groupLimit&quot;: { # The count limit on rows or columns in the pivot group. # The count limit on rows or columns to apply to this pivot group.
25018 &quot;countLimit&quot;: 42, # The count limit.
25019 &quot;applyOrder&quot;: 42, # The order in which the group limit is applied to the pivot table. Pivot group limits are applied from lower to higher order number. Order numbers are normalized to consecutive integers from 0. For write request, to fully customize the applying orders, all pivot group limits should have this field set with an unique number. Otherwise, the order is determined by the index in the PivotTable.rows list and then the PivotTable.columns list.
25020 },
25021 &quot;valueBucket&quot;: { # Information about which values in a pivot group should be used for sorting. # The bucket of the opposite pivot group to sort by. If not specified, sorting is alphabetical by this group&#x27;s values.
25022 &quot;valuesIndex&quot;: 42, # The offset in the PivotTable.values list which the values in this grouping should be sorted by.
25023 &quot;buckets&quot;: [ # Determines the bucket from which values are chosen to sort. For example, in a pivot table with one row group &amp; two column groups, the row group can list up to two values. The first value corresponds to a value within the first column group, and the second value corresponds to a value in the second column group. If no values are listed, this would indicate that the row should be sorted according to the &quot;Grand Total&quot; over the column groups. If a single value is listed, this would correspond to using the &quot;Total&quot; of that bucket.
25024 { # The kinds of value that a cell in a spreadsheet can have.
25025 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
25026 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
25027 &quot;type&quot;: &quot;A String&quot;, # The type of error.
25028 },
25029 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
25030 &quot;boolValue&quot;: True or False, # Represents a boolean value.
25031 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
25032 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
25033 },
25034 ],
25035 },
25036 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column this grouping is based on.
25037 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25038 },
25039 &quot;showTotals&quot;: True or False, # True if the pivot table should include the totals for this grouping.
25040 &quot;repeatHeadings&quot;: True or False, # True if the headings in this pivot group should be repeated. This is only valid for row groupings and is ignored by columns. By default, we minimize repitition of headings by not showing higher level headings where they are the same. For example, even though the third row below corresponds to &quot;Q1 Mar&quot;, &quot;Q1&quot; is not shown because it is redundant with previous rows. Setting repeat_headings to true would cause &quot;Q1&quot; to be repeated for &quot;Feb&quot; and &quot;Mar&quot;. +--------------+ | Q1 | Jan | | | Feb | | | Mar | +--------+-----+ | Q1 Total | +--------------+
25041 &quot;groupRule&quot;: { # An optional setting on a PivotGroup that defines buckets for the values in the source data column rather than breaking out each individual value. Only one PivotGroup with a group rule may be added for each column in the source data, though on any given column you may add both a PivotGroup that has a rule and a PivotGroup that does not. # The group rule to apply to this row/column group.
25042 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. For example, consider a pivot table showing sales transactions by date: +----------+--------------+ | Date | SUM of Sales | +----------+--------------+ | 1/1/2017 | $621.14 | | 2/3/2017 | $708.84 | | 5/8/2017 | $326.84 | ... +----------+--------------+ Applying a date-time group rule with a DateTimeRuleType of YEAR_MONTH results in the following pivot table. +--------------+--------------+ | Grouped Date | SUM of Sales | +--------------+--------------+ | 2017-Jan | $53,731.78 | | 2017-Feb | $83,475.32 | | 2017-Mar | $94,385.05 | ... +--------------+--------------+ # A DateTimeRule.
25043 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25044 },
25045 &quot;manualRule&quot;: { # Allows you to manually organize the values in a source data column into buckets with names of your choosing. For example, a pivot table that aggregates population by state: +-------+-------------------+ | State | SUM of Population | +-------+-------------------+ | AK | 0.7 | | AL | 4.8 | | AR | 2.9 | ... +-------+-------------------+ could be turned into a pivot table that aggregates population by time zone by providing a list of groups (for example, groupName = &#x27;Central&#x27;, items = [&#x27;AL&#x27;, &#x27;AR&#x27;, &#x27;IA&#x27;, ...]) to a manual group rule. Note that a similar effect could be achieved by adding a time zone column to the source data and adjusting the pivot table. +-----------+-------------------+ | Time Zone | SUM of Population | +-----------+-------------------+ | Central | 106.3 | | Eastern | 151.9 | | Mountain | 17.4 | ... +-----------+-------------------+ # A ManualRule.
25046 &quot;groups&quot;: [ # The list of group names and the corresponding items from the source data that map to each group name.
25047 { # A group name and a list of items from the source data that should be placed in the group with this name.
25048 &quot;groupName&quot;: { # The kinds of value that a cell in a spreadsheet can have. # The group name, which must be a string. Each group in a given ManualRule must have a unique group name.
25049 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
25050 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
25051 &quot;type&quot;: &quot;A String&quot;, # The type of error.
25052 },
25053 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
25054 &quot;boolValue&quot;: True or False, # Represents a boolean value.
25055 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
25056 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
25057 },
25058 &quot;items&quot;: [ # The items in the source data that should be placed into this group. Each item may be a string, number, or boolean. Items may appear in at most one group within a given ManualRule. Items that do not appear in any group will appear on their own.
25059 { # The kinds of value that a cell in a spreadsheet can have.
25060 &quot;errorValue&quot;: { # An error in a cell. # Represents an error. This field is read-only.
25061 &quot;message&quot;: &quot;A String&quot;, # A message with more information about the error (in the spreadsheet&#x27;s locale).
25062 &quot;type&quot;: &quot;A String&quot;, # The type of error.
25063 },
25064 &quot;numberValue&quot;: 3.14, # Represents a double value. Note: Dates, Times and DateTimes are represented as doubles in &quot;serial number&quot; format.
25065 &quot;boolValue&quot;: True or False, # Represents a boolean value.
25066 &quot;stringValue&quot;: &quot;A String&quot;, # Represents a string value. Leading single quotes are not included. For example, if the user typed `&#x27;123` into the UI, this would be represented as a `stringValue` of `&quot;123&quot;`.
25067 &quot;formulaValue&quot;: &quot;A String&quot;, # Represents a formula.
25068 },
25069 ],
25070 },
25071 ],
25072 },
25073 &quot;histogramRule&quot;: { # Allows you to organize the numeric values in a source data column into buckets of a constant size. All values from HistogramRule.start to HistogramRule.end are placed into groups of size HistogramRule.interval. In addition, all values below HistogramRule.start are placed in one group, and all values above HistogramRule.end are placed in another. Only HistogramRule.interval is required, though if HistogramRule.start and HistogramRule.end are both provided, HistogramRule.start must be less than HistogramRule.end. For example, a pivot table showing average purchase amount by age that has 50+ rows: +-----+-------------------+ | Age | AVERAGE of Amount | +-----+-------------------+ | 16 | $27.13 | | 17 | $5.24 | | 18 | $20.15 | ... +-----+-------------------+ could be turned into a pivot table that looks like the one below by applying a histogram group rule with a HistogramRule.start of 25, an HistogramRule.interval of 20, and an HistogramRule.end of 65. +-------------+-------------------+ | Grouped Age | AVERAGE of Amount | +-------------+-------------------+ | &lt; 25 | $19.34 | | 25-45 | $31.43 | | 45-65 | $35.87 | | &gt; 65 | $27.55 | +-------------+-------------------+ | Grand Total | $29.12 | +-------------+-------------------+ # A HistogramRule.
25074 &quot;start&quot;: 3.14, # The minimum value at which items are placed into buckets of constant size. Values below start are lumped into a single bucket. This field is optional.
25075 &quot;interval&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25076 &quot;end&quot;: 3.14, # The maximum value at which items are placed into buckets of constant size. Values above end are lumped into a single bucket. This field is optional.
25077 },
25078 },
25079 },
25080 ],
25081 },
25082 },
25083 ],
25084 },
25085 ],
25086 &quot;startColumn&quot;: 42, # The first column this GridData refers to, zero-based.
25087 &quot;rowMetadata&quot;: [ # Metadata about the requested rows in the grid, starting with the row in start_row.
25088 { # Properties about a dimension.
25089 &quot;pixelSize&quot;: 42, # The height (if a row) or width (if a column) of the dimension in pixels.
25090 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Output only. If set, this is a column in a data source sheet.
25091 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25092 },
25093 &quot;hiddenByFilter&quot;: True or False, # True if this dimension is being filtered. This field is read-only.
25094 &quot;developerMetadata&quot;: [ # The developer metadata associated with a single row or column.
25095 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
25096 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
25097 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
25098 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
25099 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
25100 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
25101 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
25102 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
25103 &quot;sheetId&quot;: 42, # The sheet this span is on.
25104 },
25105 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
25106 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
25107 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
25108 },
25109 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
25110 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
25111 },
25112 ],
25113 &quot;hiddenByUser&quot;: True or False, # True if this dimension is explicitly hidden.
25114 },
25115 ],
25116 },
25117 ],
25118 &quot;filterViews&quot;: [ # The filter views in this sheet.
25119 { # A filter view.
25120 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range this filter view covers. When writing, only one of range or named_range_id may be set.
25121 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25122 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25123 &quot;sheetId&quot;: 42, # The sheet this range is on.
25124 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25125 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25126 },
25127 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this filter view is backed by, if any. When writing, only one of range or named_range_id may be set.
25128 &quot;title&quot;: &quot;A String&quot;, # The name of the filter view.
25129 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
25130 { # A sort order associated with a specific column or row.
25131 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
25132 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25133 },
25134 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
25135 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
25136 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25137 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25138 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25139 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25140 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25141 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25142 },
25143 },
25144 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
25145 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25146 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25147 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25148 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25149 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25150 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25151 },
25152 },
25153 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
25154 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25155 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25156 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25157 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25158 },
25159 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
25160 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
25161 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25162 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25163 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25164 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25165 },
25166 },
25167 ],
25168 &quot;filterViewId&quot;: 42, # The ID of the filter view.
25169 &quot;filterSpecs&quot;: [ # The filter criteria for showing/hiding values per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
25170 { # The filter criteria associated with a specific column.
25171 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
25172 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25173 },
25174 &quot;columnIndex&quot;: 42, # The column index.
25175 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
25176 &quot;hiddenValues&quot;: [ # Values that should be hidden.
25177 &quot;A String&quot;,
25178 ],
25179 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
25180 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25181 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25182 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25183 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25184 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25185 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25186 },
25187 },
25188 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
25189 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
25190 { # The value of the condition.
25191 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
25192 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
25193 },
25194 ],
25195 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
25196 },
25197 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
25198 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25199 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25200 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25201 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25202 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25203 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25204 },
25205 },
25206 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
25207 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25208 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25209 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25210 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25211 },
25212 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
25213 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25214 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25215 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25216 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25217 },
25218 },
25219 },
25220 ],
25221 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
25222 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
25223 &quot;hiddenValues&quot;: [ # Values that should be hidden.
25224 &quot;A String&quot;,
25225 ],
25226 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
25227 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25228 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25229 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25230 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25231 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25232 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25233 },
25234 },
25235 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
25236 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
25237 { # The value of the condition.
25238 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
25239 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
25240 },
25241 ],
25242 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
25243 },
25244 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
25245 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25246 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25247 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25248 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25249 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25250 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25251 },
25252 },
25253 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
25254 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25255 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25256 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25257 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25258 },
25259 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
25260 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25261 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25262 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25263 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25264 },
25265 },
25266 },
25267 },
25268 ],
25269 &quot;columnGroups&quot;: [ # All column groups on this sheet, ordered by increasing range start index, then by group depth.
25270 { # A group over an interval of rows or columns on a sheet, which can contain or be contained within other groups. A group can be collapsed or expanded as a unit on the sheet.
25271 &quot;depth&quot;: 42, # The depth of the group, representing how many groups have a range that wholly contains the range of this group.
25272 &quot;range&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # The range over which this group exists.
25273 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
25274 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
25275 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
25276 &quot;sheetId&quot;: 42, # The sheet this span is on.
25277 },
25278 &quot;collapsed&quot;: True or False, # This field is true if this group is collapsed. A collapsed group remains collapsed if an overlapping group at a shallower depth is expanded. A true value does not imply that all dimensions within the group are hidden, since a dimension&#x27;s visibility can change independently from this group property. However, when this property is updated, all dimensions within it are set to hidden if this field is true, or set to visible if this field is false.
25279 },
25280 ],
25281 &quot;developerMetadata&quot;: [ # The developer metadata associated with a sheet.
25282 { # Developer metadata associated with a location or object in a spreadsheet. Developer metadata may be used to associate arbitrary data with various parts of a spreadsheet and will remain associated at those locations as they move around and the spreadsheet is edited. For example, if developer metadata is associated with row 5 and another row is then subsequently inserted above row 5, that original metadata will still be associated with the row it was first associated with (what is now row 6). If the associated object is deleted its metadata is deleted too.
25283 &quot;visibility&quot;: &quot;A String&quot;, # The metadata visibility. Developer metadata must always have a visibility specified.
25284 &quot;metadataId&quot;: 42, # The spreadsheet-scoped unique ID that identifies the metadata. IDs may be specified when metadata is created, otherwise one will be randomly generated and assigned. Must be positive.
25285 &quot;location&quot;: { # A location where metadata may be associated in a spreadsheet. # The location where the metadata is associated.
25286 &quot;dimensionRange&quot;: { # A range along a single dimension on a sheet. All indexes are zero-based. Indexes are half open: the start index is inclusive and the end index is exclusive. Missing indexes indicate the range is unbounded on that side. # Represents the row or column when metadata is associated with a dimension. The specified DimensionRange must represent a single row or column; it cannot be unbounded or span multiple rows or columns.
25287 &quot;startIndex&quot;: 42, # The start (inclusive) of the span, or not set if unbounded.
25288 &quot;endIndex&quot;: 42, # The end (exclusive) of the span, or not set if unbounded.
25289 &quot;dimension&quot;: &quot;A String&quot;, # The dimension of the span.
25290 &quot;sheetId&quot;: 42, # The sheet this span is on.
25291 },
25292 &quot;sheetId&quot;: 42, # The ID of the sheet when metadata is associated with an entire sheet.
25293 &quot;locationType&quot;: &quot;A String&quot;, # The type of location this object represents. This field is read-only.
25294 &quot;spreadsheet&quot;: True or False, # True when metadata is associated with an entire spreadsheet.
25295 },
25296 &quot;metadataKey&quot;: &quot;A String&quot;, # The metadata key. There may be multiple metadata in a spreadsheet with the same key. Developer metadata must always have a key specified.
25297 &quot;metadataValue&quot;: &quot;A String&quot;, # Data associated with the metadata&#x27;s key.
25298 },
25299 ],
25300 &quot;charts&quot;: [ # The specifications of every chart on this sheet.
25301 { # A chart embedded in a sheet.
25302 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the chart.
25303 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
25304 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
25305 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
25306 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
25307 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
25308 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
25309 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
25310 },
25311 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
25312 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
25313 },
25314 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
25315 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
25316 },
25317 &quot;spec&quot;: { # The specifications of a chart. # The specification of the chart.
25318 &quot;subtitleTextPosition&quot;: { # Position settings for text. # The subtitle text position. This field is optional.
25319 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
25320 },
25321 &quot;orgChart&quot;: { # An org chart. Org charts require a unique set of labels in labels and may optionally include parent_labels and tooltips. parent_labels contain, for each node, the label identifying the parent node. tooltips contain, for each node, an optional tooltip. For example, to describe an OrgChart with Alice as the CEO, Bob as the President (reporting to Alice) and Cathy as VP of Sales (also reporting to Alice), have labels contain &quot;Alice&quot;, &quot;Bob&quot;, &quot;Cathy&quot;, parent_labels contain &quot;&quot;, &quot;Alice&quot;, &quot;Alice&quot; and tooltips contain &quot;CEO&quot;, &quot;President&quot;, &quot;VP Sales&quot;. # An org chart specification.
25322 &quot;nodeSize&quot;: &quot;A String&quot;, # The size of the org chart nodes.
25323 &quot;nodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the org chart nodes.
25324 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25325 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25326 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25327 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25328 },
25329 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data containing the label of the parent for the corresponding node. A blank value indicates that the node has no parent and is a top-level node. This field is optional.
25330 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25331 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25332 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25333 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25334 },
25335 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25336 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25337 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25338 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25339 },
25340 },
25341 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25342 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25343 },
25344 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25345 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25346 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25347 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25348 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25349 &quot;sheetId&quot;: 42, # The sheet this range is on.
25350 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25351 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25352 },
25353 ],
25354 },
25355 },
25356 &quot;selectedNodeColorStyle&quot;: { # A color value. # The color of the selected org chart nodes. If selected_node_color is also set, this field takes precedence.
25357 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25358 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25359 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25360 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25361 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25362 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25363 },
25364 },
25365 &quot;selectedNodeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the selected org chart nodes.
25366 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25367 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25368 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25369 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25370 },
25371 &quot;labels&quot;: { # The data included in a domain or series. # The data containing the labels for all the nodes in the chart. Labels must be unique.
25372 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25373 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25374 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25375 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25376 },
25377 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25378 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25379 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25380 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25381 },
25382 },
25383 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25384 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25385 },
25386 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25387 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25388 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25389 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25390 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25391 &quot;sheetId&quot;: 42, # The sheet this range is on.
25392 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25393 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25394 },
25395 ],
25396 },
25397 },
25398 &quot;tooltips&quot;: { # The data included in a domain or series. # The data containing the tooltip for the corresponding node. A blank value results in no tooltip being displayed for the node. This field is optional.
25399 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25400 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25401 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25402 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25403 },
25404 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25405 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25406 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25407 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25408 },
25409 },
25410 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25411 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25412 },
25413 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25414 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25415 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25416 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25417 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25418 &quot;sheetId&quot;: 42, # The sheet this range is on.
25419 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25420 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25421 },
25422 ],
25423 },
25424 },
25425 &quot;nodeColorStyle&quot;: { # A color value. # The color of the org chart nodes. If node_color is also set, this field takes precedence.
25426 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25427 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25428 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25429 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25430 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25431 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25432 },
25433 },
25434 },
25435 &quot;fontName&quot;: &quot;A String&quot;, # The name of the font to use by default for all chart text (e.g. title, axis labels, legend). If a font is specified for a specific part of the chart it will override this font name.
25436 &quot;scorecardChart&quot;: { # A scorecard chart. Scorecard charts are used to highlight key performance indicators, known as KPIs, on the spreadsheet. A scorecard chart can represent things like total sales, average cost, or a top selling item. You can specify a single data value, or aggregate over a range of data. Percentage or absolute difference from a baseline value can be highlighted, like changes over time. # A scorecard chart specification.
25437 &quot;customFormatOptions&quot;: { # Custom number formatting options for chart attributes. # Custom formatting options for numeric key/baseline values in scorecard chart. This field is used only when number_format_source is set to CUSTOM. This field is optional.
25438 &quot;prefix&quot;: &quot;A String&quot;, # Custom prefix to be prepended to the chart attribute. This field is optional.
25439 &quot;suffix&quot;: &quot;A String&quot;, # Custom suffix to be appended to the chart attribute. This field is optional.
25440 },
25441 &quot;baselineValueData&quot;: { # The data included in a domain or series. # The data for scorecard baseline value. This field is optional.
25442 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25443 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25444 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25445 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25446 },
25447 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25448 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25449 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25450 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25451 },
25452 },
25453 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25454 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25455 },
25456 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25457 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25458 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25459 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25460 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25461 &quot;sheetId&quot;: 42, # The sheet this range is on.
25462 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25463 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25464 },
25465 ],
25466 },
25467 },
25468 &quot;scaleFactor&quot;: 3.14, # Value to scale scorecard key and baseline value. For example, a factor of 10 can be used to divide all values in the chart by 10. This field is optional.
25469 &quot;baselineValueFormat&quot;: { # Formatting options for baseline value. # Formatting options for baseline value. This field is needed only if baseline_value_data is specified.
25470 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for baseline value.
25471 &quot;bold&quot;: True or False, # True if the text is bold.
25472 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
25473 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
25474 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25475 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25476 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25477 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25478 },
25479 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
25480 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25481 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25482 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25483 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25484 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25485 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25486 },
25487 },
25488 &quot;italic&quot;: True or False, # True if the text is italicized.
25489 &quot;underline&quot;: True or False, # True if the text is underlined.
25490 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
25491 &quot;fontSize&quot;: 42, # The size of the font.
25492 },
25493 &quot;comparisonType&quot;: &quot;A String&quot;, # The comparison type of key value with baseline value.
25494 &quot;negativeColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a negative change for key value. This field is optional. If negative_color is also set, this field takes precedence.
25495 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25496 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25497 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25498 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25499 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25500 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25501 },
25502 },
25503 &quot;positiveColorStyle&quot;: { # A color value. # Color to be used, in case baseline value represents a positive change for key value. This field is optional. If positive_color is also set, this field takes precedence.
25504 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25505 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25506 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25507 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25508 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25509 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25510 },
25511 },
25512 &quot;description&quot;: &quot;A String&quot;, # Description which is appended after the baseline value. This field is optional.
25513 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of baseline value. This field is optional. If not specified, default positioning is used.
25514 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
25515 },
25516 &quot;negativeColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a negative change for key value. This field is optional.
25517 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25518 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25519 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25520 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25521 },
25522 &quot;positiveColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # Color to be used, in case baseline value represents a positive change for key value. This field is optional.
25523 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25524 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25525 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25526 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25527 },
25528 },
25529 &quot;keyValueData&quot;: { # The data included in a domain or series. # The data for scorecard key value.
25530 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25531 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25532 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25533 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25534 },
25535 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25536 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25537 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25538 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25539 },
25540 },
25541 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25542 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25543 },
25544 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25545 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25546 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25547 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25548 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25549 &quot;sheetId&quot;: 42, # The sheet this range is on.
25550 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25551 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25552 },
25553 ],
25554 },
25555 },
25556 &quot;numberFormatSource&quot;: &quot;A String&quot;, # The number format source used in the scorecard chart. This field is optional.
25557 &quot;keyValueFormat&quot;: { # Formatting options for key value. # Formatting options for key value.
25558 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # Text formatting options for key value.
25559 &quot;bold&quot;: True or False, # True if the text is bold.
25560 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
25561 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
25562 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25563 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25564 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25565 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25566 },
25567 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
25568 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25569 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25570 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25571 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25572 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25573 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25574 },
25575 },
25576 &quot;italic&quot;: True or False, # True if the text is italicized.
25577 &quot;underline&quot;: True or False, # True if the text is underlined.
25578 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
25579 &quot;fontSize&quot;: 42, # The size of the font.
25580 },
25581 &quot;position&quot;: { # Position settings for text. # Specifies the horizontal text positioning of key value. This field is optional. If not specified, default positioning is used.
25582 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
25583 },
25584 },
25585 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for key and baseline chart data in scorecard chart. This field is not supported for data source charts. Use the ChartData.aggregateType field of the key_value_data or baseline_value_data instead for data source charts. This field is optional.
25586 },
25587 &quot;sortSpecs&quot;: [ # The order to sort the chart data by. Only a single sort spec is supported. Only supported for data source charts.
25588 { # A sort order associated with a specific column or row.
25589 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
25590 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25591 },
25592 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
25593 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
25594 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25595 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25596 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25597 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25598 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25599 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25600 },
25601 },
25602 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
25603 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25604 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25605 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25606 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25607 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25608 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25609 },
25610 },
25611 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
25612 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25613 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25614 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25615 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25616 },
25617 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
25618 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
25619 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25620 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25621 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25622 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25623 },
25624 },
25625 ],
25626 &quot;title&quot;: &quot;A String&quot;, # The title of the chart.
25627 &quot;titleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The title text format. Strikethrough and underline are not supported.
25628 &quot;bold&quot;: True or False, # True if the text is bold.
25629 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
25630 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
25631 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25632 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25633 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25634 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25635 },
25636 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
25637 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25638 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25639 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25640 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25641 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25642 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25643 },
25644 },
25645 &quot;italic&quot;: True or False, # True if the text is italicized.
25646 &quot;underline&quot;: True or False, # True if the text is underlined.
25647 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
25648 &quot;fontSize&quot;: 42, # The size of the font.
25649 },
25650 &quot;maximized&quot;: True or False, # True to make a chart fill the entire space in which it&#x27;s rendered with minimum padding. False to use the default padding. (Not applicable to Geo and Org charts.)
25651 &quot;dataSourceChartProperties&quot;: { # Properties of a data source chart. # If present, the field contains data source chart specific properties.
25652 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the data source that the chart is associated with.
25653 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # Output only. The data execution status.
25654 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
25655 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
25656 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
25657 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
25658 },
25659 },
25660 &quot;waterfallChart&quot;: { # A waterfall chart. # A waterfall chart specification.
25661 &quot;hideConnectorLines&quot;: True or False, # True to hide connector lines between columns.
25662 &quot;connectorLineStyle&quot;: { # Properties that describe the style of a line. # The line style for the connector lines.
25663 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
25664 &quot;width&quot;: 42, # The thickness of the line, in px.
25665 },
25666 &quot;series&quot;: [ # The data this waterfall chart is visualizing.
25667 { # A single series of data for a waterfall chart.
25668 &quot;data&quot;: { # The data included in a domain or series. # The data being visualized in this series.
25669 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25670 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25671 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25672 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25673 },
25674 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25675 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25676 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25677 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25678 },
25679 },
25680 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25681 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25682 },
25683 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25684 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25685 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25686 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25687 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25688 &quot;sheetId&quot;: 42, # The sheet this range is on.
25689 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25690 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25691 },
25692 ],
25693 },
25694 },
25695 &quot;subtotalColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all subtotal columns in this series.
25696 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
25697 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
25698 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25699 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25700 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25701 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25702 },
25703 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
25704 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25705 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25706 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25707 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25708 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25709 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25710 },
25711 },
25712 },
25713 &quot;negativeColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with negative values.
25714 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
25715 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
25716 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25717 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25718 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25719 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25720 },
25721 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
25722 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25723 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25724 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25725 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25726 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25727 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25728 },
25729 },
25730 },
25731 &quot;hideTrailingSubtotal&quot;: True or False, # True to hide the subtotal column from the end of the series. By default, a subtotal column will appear at the end of each series. Setting this field to true will hide that subtotal column for this series.
25732 &quot;customSubtotals&quot;: [ # Custom subtotal columns appearing in this series. The order in which subtotals are defined is not significant. Only one subtotal may be defined for each data point.
25733 { # A custom subtotal column for a waterfall chart series.
25734 &quot;subtotalIndex&quot;: 42, # The 0-based index of a data point within the series. If data_is_subtotal is true, the data point at this index is the subtotal. Otherwise, the subtotal appears after the data point with this index. A series can have multiple subtotals at arbitrary indices, but subtotals do not affect the indices of the data points. For example, if a series has three data points, their indices will always be 0, 1, and 2, regardless of how many subtotals exist on the series or what data points they are associated with.
25735 &quot;label&quot;: &quot;A String&quot;, # A label for the subtotal column.
25736 &quot;dataIsSubtotal&quot;: True or False, # True if the data point at subtotal_index is the subtotal. If false, the subtotal will be computed and appear after the data point.
25737 },
25738 ],
25739 &quot;positiveColumnsStyle&quot;: { # Styles for a waterfall chart column. # Styles for all columns in this series with positive values.
25740 &quot;label&quot;: &quot;A String&quot;, # The label of the column&#x27;s legend.
25741 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column.
25742 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25743 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25744 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25745 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25746 },
25747 &quot;colorStyle&quot;: { # A color value. # The color of the column. If color is also set, this field takes precedence.
25748 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25749 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25750 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25751 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25752 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25753 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25754 },
25755 },
25756 },
25757 },
25758 ],
25759 &quot;domain&quot;: { # The domain of a waterfall chart. # The domain data (horizontal axis) for the waterfall chart.
25760 &quot;data&quot;: { # The data included in a domain or series. # The data of the WaterfallChartDomain.
25761 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25762 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25763 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25764 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25765 },
25766 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25767 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25768 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25769 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25770 },
25771 },
25772 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25773 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25774 },
25775 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25776 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25777 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25778 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25779 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25780 &quot;sheetId&quot;: 42, # The sheet this range is on.
25781 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25782 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25783 },
25784 ],
25785 },
25786 },
25787 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
25788 },
25789 &quot;firstValueIsTotal&quot;: True or False, # True to interpret the first value as a total.
25790 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type.
25791 },
25792 &quot;histogramChart&quot;: { # A histogram chart. A histogram chart groups data items into bins, displaying each bin as a column of stacked items. Histograms are used to display the distribution of a dataset. Each column of items represents a range into which those items fall. The number of bins can be chosen automatically or specified explicitly. # A histogram chart specification.
25793 &quot;series&quot;: [ # The series for a histogram may be either a single series of values to be bucketed or multiple series, each of the same length, containing the name of the series followed by the values to be bucketed for that series.
25794 { # A histogram series containing the series color and data.
25795 &quot;data&quot;: { # The data included in a domain or series. # The data for this histogram series.
25796 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25797 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25798 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25799 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25800 },
25801 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25802 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25803 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25804 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25805 },
25806 },
25807 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25808 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25809 },
25810 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25811 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25812 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25813 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25814 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25815 &quot;sheetId&quot;: 42, # The sheet this range is on.
25816 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25817 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25818 },
25819 ],
25820 },
25821 },
25822 &quot;barColorStyle&quot;: { # A color value. # The color of the column representing this series in each bucket. This field is optional. If bar_color is also set, this field takes precedence.
25823 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25824 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25825 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25826 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25827 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25828 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25829 },
25830 },
25831 &quot;barColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the column representing this series in each bucket. This field is optional.
25832 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25833 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25834 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25835 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25836 },
25837 },
25838 ],
25839 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
25840 &quot;showItemDividers&quot;: True or False, # Whether horizontal divider lines should be displayed between items in each column.
25841 &quot;outlierPercentile&quot;: 3.14, # The outlier percentile is used to ensure that outliers do not adversely affect the calculation of bucket sizes. For example, setting an outlier percentile of 0.05 indicates that the top and bottom 5% of values when calculating buckets. The values are still included in the chart, they will be added to the first or last buckets instead of their own buckets. Must be between 0.0 and 0.5.
25842 &quot;bucketSize&quot;: 3.14, # By default the bucket size (the range of values stacked in a single column) is chosen automatically, but it may be overridden here. E.g., A bucket size of 1.5 results in buckets from 0 - 1.5, 1.5 - 3.0, etc. Cannot be negative. This field is optional.
25843 },
25844 &quot;hiddenDimensionStrategy&quot;: &quot;A String&quot;, # Determines how the charts will use hidden rows or columns.
25845 &quot;bubbleChart&quot;: { # A bubble chart. # A bubble chart specification.
25846 &quot;bubbleMaxRadiusSize&quot;: 42, # The max radius size of the bubbles, in pixels. If specified, the field must be a positive value.
25847 &quot;bubbleSizes&quot;: { # The data included in a domain or series. # The data contianing the bubble sizes. Bubble sizes are used to draw the bubbles at different sizes relative to each other. If specified, group_ids must also be specified. This field is optional.
25848 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25849 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25850 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25851 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25852 },
25853 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25854 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25855 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25856 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25857 },
25858 },
25859 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25860 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25861 },
25862 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25863 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25864 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25865 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25866 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25867 &quot;sheetId&quot;: 42, # The sheet this range is on.
25868 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25869 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25870 },
25871 ],
25872 },
25873 },
25874 &quot;groupIds&quot;: { # The data included in a domain or series. # The data containing the bubble group IDs. All bubbles with the same group ID are drawn in the same color. If bubble_sizes is specified then this field must also be specified but may contain blank values. This field is optional.
25875 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25876 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25877 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25878 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25879 },
25880 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25881 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25882 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25883 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25884 },
25885 },
25886 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25887 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25888 },
25889 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25890 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25891 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25892 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25893 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25894 &quot;sheetId&quot;: 42, # The sheet this range is on.
25895 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25896 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25897 },
25898 ],
25899 },
25900 },
25901 &quot;bubbleOpacity&quot;: 3.14, # The opacity of the bubbles between 0 and 1.0. 0 is fully transparent and 1 is fully opaque.
25902 &quot;bubbleLabels&quot;: { # The data included in a domain or series. # The data containing the bubble labels. These do not need to be unique.
25903 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25904 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25905 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25906 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25907 },
25908 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25909 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25910 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25911 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25912 },
25913 },
25914 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25915 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25916 },
25917 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25918 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25919 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25920 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25921 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25922 &quot;sheetId&quot;: 42, # The sheet this range is on.
25923 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25924 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25925 },
25926 ],
25927 },
25928 },
25929 &quot;bubbleBorderColorStyle&quot;: { # A color value. # The bubble border color. If bubble_border_color is also set, this field takes precedence.
25930 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25931 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25932 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25933 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25934 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25935 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25936 },
25937 },
25938 &quot;domain&quot;: { # The data included in a domain or series. # The data containing the bubble x-values. These values locate the bubbles in the chart horizontally.
25939 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25940 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25941 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25942 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
25943 },
25944 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
25945 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
25946 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
25947 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
25948 },
25949 },
25950 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
25951 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
25952 },
25953 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
25954 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
25955 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
25956 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
25957 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
25958 &quot;sheetId&quot;: 42, # The sheet this range is on.
25959 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
25960 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
25961 },
25962 ],
25963 },
25964 },
25965 &quot;bubbleTextStyle&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text inside the bubbles. Strikethrough and underline are not supported.
25966 &quot;bold&quot;: True or False, # True if the text is bold.
25967 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
25968 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
25969 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25970 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25971 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25972 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25973 },
25974 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
25975 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
25976 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
25977 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25978 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25979 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25980 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25981 },
25982 },
25983 &quot;italic&quot;: True or False, # True if the text is italicized.
25984 &quot;underline&quot;: True or False, # True if the text is underlined.
25985 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
25986 &quot;fontSize&quot;: 42, # The size of the font.
25987 },
25988 &quot;bubbleMinRadiusSize&quot;: 42, # The minimum radius size of the bubbles, in pixels. If specific, the field must be a positive value.
25989 &quot;bubbleBorderColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The bubble border color.
25990 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
25991 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
25992 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
25993 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
25994 },
25995 &quot;series&quot;: { # The data included in a domain or series. # The data contianing the bubble y-values. These values locate the bubbles in the chart vertically.
25996 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
25997 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
25998 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
25999 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26000 },
26001 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26002 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26003 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26004 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26005 },
26006 },
26007 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26008 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26009 },
26010 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26011 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26012 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26013 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26014 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26015 &quot;sheetId&quot;: 42, # The sheet this range is on.
26016 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26017 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26018 },
26019 ],
26020 },
26021 },
26022 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the chart should be drawn.
26023 },
26024 &quot;subtitle&quot;: &quot;A String&quot;, # The subtitle of the chart.
26025 &quot;pieChart&quot;: { # A pie chart. # A pie chart specification.
26026 &quot;legendPosition&quot;: &quot;A String&quot;, # Where the legend of the pie chart should be drawn.
26027 &quot;threeDimensional&quot;: True or False, # True if the pie is three dimensional.
26028 &quot;domain&quot;: { # The data included in a domain or series. # The data that covers the domain of the pie chart.
26029 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26030 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26031 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26032 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26033 },
26034 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26035 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26036 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26037 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26038 },
26039 },
26040 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26041 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26042 },
26043 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26044 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26045 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26046 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26047 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26048 &quot;sheetId&quot;: 42, # The sheet this range is on.
26049 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26050 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26051 },
26052 ],
26053 },
26054 },
26055 &quot;pieHole&quot;: 3.14, # The size of the hole in the pie chart.
26056 &quot;series&quot;: { # The data included in a domain or series. # The data that covers the one and only series of the pie chart.
26057 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26058 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26059 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26060 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26061 },
26062 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26063 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26064 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26065 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26066 },
26067 },
26068 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26069 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26070 },
26071 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26072 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26073 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26074 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26075 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26076 &quot;sheetId&quot;: 42, # The sheet this range is on.
26077 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26078 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26079 },
26080 ],
26081 },
26082 },
26083 },
26084 &quot;treemapChart&quot;: { # A Treemap chart. # A treemap chart specification.
26085 &quot;headerColorStyle&quot;: { # A color value. # The background color for header cells. If header_color is also set, this field takes precedence.
26086 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26087 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26088 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26089 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26090 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26091 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26092 },
26093 },
26094 &quot;parentLabels&quot;: { # The data included in a domain or series. # The data the contains the treemap cells&#x27; parent labels.
26095 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26096 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26097 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26098 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26099 },
26100 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26101 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26102 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26103 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26104 },
26105 },
26106 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26107 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26108 },
26109 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26110 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26111 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26112 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26113 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26114 &quot;sheetId&quot;: 42, # The sheet this range is on.
26115 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26116 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26117 },
26118 ],
26119 },
26120 },
26121 &quot;minValue&quot;: 3.14, # The minimum possible data value. Cells with values less than this will have the same color as cells with this value. If not specified, defaults to the actual minimum value from color_data, or the minimum value from size_data if color_data is not specified.
26122 &quot;hintedLevels&quot;: 42, # The number of additional data levels beyond the labeled levels to be shown on the treemap chart. These levels are not interactive and are shown without their labels. Defaults to 0 if not specified.
26123 &quot;headerColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for header cells.
26124 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26125 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26126 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26127 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26128 },
26129 &quot;maxValue&quot;: 3.14, # The maximum possible data value. Cells with values greater than this will have the same color as cells with this value. If not specified, defaults to the actual maximum value from color_data, or the maximum value from size_data if color_data is not specified.
26130 &quot;sizeData&quot;: { # The data included in a domain or series. # The data that determines the size of each treemap data cell. This data is expected to be numeric. The cells corresponding to non-numeric or missing data will not be rendered. If color_data is not specified, this data is used to determine data cell background colors as well.
26131 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26132 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26133 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26134 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26135 },
26136 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26137 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26138 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26139 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26140 },
26141 },
26142 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26143 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26144 },
26145 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26146 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26147 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26148 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26149 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26150 &quot;sheetId&quot;: 42, # The sheet this range is on.
26151 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26152 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26153 },
26154 ],
26155 },
26156 },
26157 &quot;labels&quot;: { # The data included in a domain or series. # The data that contains the treemap cell labels.
26158 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26159 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26160 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26161 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26162 },
26163 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26164 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26165 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26166 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26167 },
26168 },
26169 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26170 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26171 },
26172 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26173 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26174 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26175 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26176 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26177 &quot;sheetId&quot;: 42, # The sheet this range is on.
26178 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26179 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26180 },
26181 ],
26182 },
26183 },
26184 &quot;colorData&quot;: { # The data included in a domain or series. # The data that determines the background color of each treemap data cell. This field is optional. If not specified, size_data is used to determine background colors. If specified, the data is expected to be numeric. color_scale will determine how the values in this data map to data cell background colors.
26185 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26186 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26187 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26188 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26189 },
26190 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26191 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26192 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26193 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26194 },
26195 },
26196 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26197 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26198 },
26199 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26200 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26201 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26202 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26203 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26204 &quot;sheetId&quot;: 42, # The sheet this range is on.
26205 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26206 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26207 },
26208 ],
26209 },
26210 },
26211 &quot;colorScale&quot;: { # A color scale for a treemap chart. # The color scale for data cells in the treemap chart. Data cells are assigned colors based on their color values. These color values come from color_data, or from size_data if color_data is not specified. Cells with color values less than or equal to min_value will have minValueColor as their background color. Cells with color values greater than or equal to max_value will have maxValueColor as their background color. Cells with color values between min_value and max_value will have background colors on a gradient between minValueColor and maxValueColor, the midpoint of the gradient being midValueColor. Cells with missing or non-numeric color values will have noDataColor as their background color.
26212 &quot;midValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified.
26213 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26214 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26215 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26216 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26217 },
26218 &quot;maxValueColorStyle&quot;: { # A color value. # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified. If max_value_color is also set, this field takes precedence.
26219 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26220 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26221 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26222 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26223 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26224 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26225 },
26226 },
26227 &quot;minValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified.
26228 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26229 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26230 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26231 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26232 },
26233 &quot;noDataColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified.
26234 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26235 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26236 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26237 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26238 },
26239 &quot;noDataColorStyle&quot;: { # A color value. # The background color for cells that have no color data associated with them. Defaults to #000000 if not specified. If no_data_color is also set, this field takes precedence.
26240 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26241 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26242 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26243 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26244 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26245 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26246 },
26247 },
26248 &quot;midValueColorStyle&quot;: { # A color value. # The background color for cells with a color value at the midpoint between minValue and maxValue. Defaults to #efe6dc if not specified. If mid_value_color is also set, this field takes precedence.
26249 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26250 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26251 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26252 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26253 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26254 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26255 },
26256 },
26257 &quot;maxValueColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color for cells with a color value greater than or equal to maxValue. Defaults to #109618 if not specified.
26258 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26259 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26260 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26261 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26262 },
26263 &quot;minValueColorStyle&quot;: { # A color value. # The background color for cells with a color value less than or equal to minValue. Defaults to #dc3912 if not specified. If min_value_color is also set, this field takes precedence.
26264 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26265 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26266 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26267 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26268 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26269 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26270 },
26271 },
26272 },
26273 &quot;hideTooltips&quot;: True or False, # True to hide tooltips.
26274 &quot;levels&quot;: 42, # The number of data levels to show on the treemap chart. These levels are interactive and are shown with their labels. Defaults to 2 if not specified.
26275 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format for all labels on the chart.
26276 &quot;bold&quot;: True or False, # True if the text is bold.
26277 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
26278 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
26279 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26280 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26281 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26282 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26283 },
26284 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
26285 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26286 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26287 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26288 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26289 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26290 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26291 },
26292 },
26293 &quot;italic&quot;: True or False, # True if the text is italicized.
26294 &quot;underline&quot;: True or False, # True if the text is underlined.
26295 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
26296 &quot;fontSize&quot;: 42, # The size of the font.
26297 },
26298 },
26299 &quot;titleTextPosition&quot;: { # Position settings for text. # The title text position. This field is optional.
26300 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
26301 },
26302 &quot;altText&quot;: &quot;A String&quot;, # The alternative text that describes the chart. This is often used for accessibility.
26303 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the entire chart. Not applicable to Org charts. If background_color is also set, this field takes precedence.
26304 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26305 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26306 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26307 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26308 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26309 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26310 },
26311 },
26312 &quot;filterSpecs&quot;: [ # The filters applied to the source data of the chart. Only supported for data source charts.
26313 { # The filter criteria associated with a specific column.
26314 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
26315 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26316 },
26317 &quot;columnIndex&quot;: 42, # The column index.
26318 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
26319 &quot;hiddenValues&quot;: [ # Values that should be hidden.
26320 &quot;A String&quot;,
26321 ],
26322 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
26323 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26324 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26325 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26326 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26327 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26328 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26329 },
26330 },
26331 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
26332 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
26333 { # The value of the condition.
26334 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
26335 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
26336 },
26337 ],
26338 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
26339 },
26340 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
26341 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26342 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26343 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26344 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26345 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26346 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26347 },
26348 },
26349 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
26350 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26351 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26352 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26353 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26354 },
26355 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
26356 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26357 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26358 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26359 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26360 },
26361 },
26362 },
26363 ],
26364 &quot;candlestickChart&quot;: { # A candlestick chart. # A candlestick chart specification.
26365 &quot;domain&quot;: { # The domain of a CandlestickChart. # The domain data (horizontal axis) for the candlestick chart. String data will be treated as discrete labels, other data will be treated as continuous values.
26366 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
26367 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickDomain.
26368 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26369 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26370 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26371 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26372 },
26373 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26374 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26375 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26376 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26377 },
26378 },
26379 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26380 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26381 },
26382 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26383 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26384 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26385 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26386 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26387 &quot;sheetId&quot;: 42, # The sheet this range is on.
26388 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26389 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26390 },
26391 ],
26392 },
26393 },
26394 },
26395 &quot;data&quot;: [ # The Candlestick chart data. Only one CandlestickData is supported.
26396 { # The Candlestick chart data, each containing the low, open, close, and high values for a series.
26397 &quot;openSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the open/initial value for each candle. This is the bottom of the candle body. If less than the close value the candle will be filled. Otherwise the candle will be hollow.
26398 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
26399 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26400 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26401 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26402 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26403 },
26404 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26405 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26406 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26407 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26408 },
26409 },
26410 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26411 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26412 },
26413 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26414 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26415 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26416 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26417 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26418 &quot;sheetId&quot;: 42, # The sheet this range is on.
26419 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26420 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26421 },
26422 ],
26423 },
26424 },
26425 },
26426 &quot;highSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the high/maximum value for each candle. This is the top of the candle&#x27;s center line.
26427 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
26428 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26429 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26430 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26431 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26432 },
26433 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26434 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26435 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26436 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26437 },
26438 },
26439 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26440 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26441 },
26442 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26443 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26444 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26445 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26446 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26447 &quot;sheetId&quot;: 42, # The sheet this range is on.
26448 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26449 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26450 },
26451 ],
26452 },
26453 },
26454 },
26455 &quot;lowSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the low/minimum value for each candle. This is the bottom of the candle&#x27;s center line.
26456 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
26457 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26458 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26459 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26460 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26461 },
26462 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26463 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26464 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26465 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26466 },
26467 },
26468 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26469 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26470 },
26471 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26472 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26473 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26474 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26475 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26476 &quot;sheetId&quot;: 42, # The sheet this range is on.
26477 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26478 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26479 },
26480 ],
26481 },
26482 },
26483 },
26484 &quot;closeSeries&quot;: { # The series of a CandlestickData. # The range data (vertical axis) for the close/final value for each candle. This is the top of the candle body. If greater than the open value the candle will be filled. Otherwise the candle will be hollow.
26485 &quot;data&quot;: { # The data included in a domain or series. # The data of the CandlestickSeries.
26486 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26487 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26488 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26489 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26490 },
26491 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26492 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26493 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26494 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26495 },
26496 },
26497 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26498 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26499 },
26500 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26501 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26502 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26503 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26504 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26505 &quot;sheetId&quot;: 42, # The sheet this range is on.
26506 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26507 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26508 },
26509 ],
26510 },
26511 },
26512 },
26513 },
26514 ],
26515 },
26516 &quot;basicChart&quot;: { # The specification for a basic chart. See BasicChartType for the list of charts this supports. # A basic chart specification, can be one of many kinds of charts. See BasicChartType for the list of all charts this supports.
26517 &quot;domains&quot;: [ # The domain of data this is charting. Only a single domain is supported.
26518 { # The domain of a chart. For example, if charting stock prices over time, this would be the date.
26519 &quot;reversed&quot;: True or False, # True to reverse the order of the domain values (horizontal axis).
26520 &quot;domain&quot;: { # The data included in a domain or series. # The data of the domain. For example, if charting stock prices over time, this is the data representing the dates.
26521 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26522 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26523 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26524 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26525 },
26526 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26527 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26528 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26529 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26530 },
26531 },
26532 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26533 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26534 },
26535 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26536 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26537 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26538 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26539 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26540 &quot;sheetId&quot;: 42, # The sheet this range is on.
26541 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26542 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26543 },
26544 ],
26545 },
26546 },
26547 },
26548 ],
26549 &quot;compareMode&quot;: &quot;A String&quot;, # The behavior of tooltips and data highlighting when hovering on data and chart area.
26550 &quot;axis&quot;: [ # The axis on the chart.
26551 { # An axis of the chart. A chart may not have more than one axis per axis position.
26552 &quot;title&quot;: &quot;A String&quot;, # The title of this axis. If set, this overrides any title inferred from headers of the data.
26553 &quot;position&quot;: &quot;A String&quot;, # The position of this axis.
26554 &quot;titleTextPosition&quot;: { # Position settings for text. # The axis title text position.
26555 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # Horizontal alignment setting for the piece of text.
26556 },
26557 &quot;format&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the title. Only valid if the axis is not associated with the domain.
26558 &quot;bold&quot;: True or False, # True if the text is bold.
26559 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
26560 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
26561 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26562 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26563 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26564 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26565 },
26566 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
26567 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26568 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26569 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26570 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26571 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26572 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26573 },
26574 },
26575 &quot;italic&quot;: True or False, # True if the text is italicized.
26576 &quot;underline&quot;: True or False, # True if the text is underlined.
26577 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
26578 &quot;fontSize&quot;: 42, # The size of the font.
26579 },
26580 &quot;viewWindowOptions&quot;: { # The options that define a &quot;view window&quot; for a chart (such as the visible values in an axis). # The view window options for this axis.
26581 &quot;viewWindowMax&quot;: 3.14, # The maximum numeric value to be shown in this view window. If unset, will automatically determine a maximum value that looks good for the data.
26582 &quot;viewWindowMin&quot;: 3.14, # The minimum numeric value to be shown in this view window. If unset, will automatically determine a minimum value that looks good for the data.
26583 &quot;viewWindowMode&quot;: &quot;A String&quot;, # The view window&#x27;s mode.
26584 },
26585 },
26586 ],
26587 &quot;legendPosition&quot;: &quot;A String&quot;, # The position of the chart legend.
26588 &quot;stackedType&quot;: &quot;A String&quot;, # The stacked type for charts that support vertical stacking. Applies to Area, Bar, Column, Combo, and Stepped Area charts.
26589 &quot;threeDimensional&quot;: True or False, # True to make the chart 3D. Applies to Bar and Column charts.
26590 &quot;interpolateNulls&quot;: True or False, # If some values in a series are missing, gaps may appear in the chart (e.g, segments of lines in a line chart will be missing). To eliminate these gaps set this to true. Applies to Line, Area, and Combo charts.
26591 &quot;series&quot;: [ # The data this chart is visualizing.
26592 { # A single series of data in a chart. For example, if charting stock prices over time, multiple series may exist, one for the &quot;Open Price&quot;, &quot;High Price&quot;, &quot;Low Price&quot; and &quot;Close Price&quot;.
26593 &quot;series&quot;: { # The data included in a domain or series. # The data being visualized in this chart series.
26594 &quot;aggregateType&quot;: &quot;A String&quot;, # The aggregation type for the series of a data source chart. Not supported for regular charts.
26595 &quot;groupRule&quot;: { # An optional setting on the ChartData of the domain of a data source chart that defines buckets for the values in the domain rather than breaking out each individual value. For example, when plotting a data source chart, you can specify a histogram rule on the domain (it should only contain numeric values), grouping its values into buckets. Any values of a chart series that fall into the same bucket are aggregated based on the aggregate_type. # The rule to group the data by if the ChartData backs the domain of a data source chart. Not supported for regular charts.
26596 &quot;dateTimeRule&quot;: { # Allows you to organize the date-time values in a source data column into buckets based on selected parts of their date or time values. # A ChartDateTimeRule.
26597 &quot;type&quot;: &quot;A String&quot;, # The type of date-time grouping to apply.
26598 },
26599 &quot;histogramRule&quot;: { # Allows you to organize numeric values in a source data column into buckets of constant size. # A ChartHistogramRule
26600 &quot;intervalSize&quot;: 3.14, # The size of the buckets that are created. Must be positive.
26601 &quot;minValue&quot;: 3.14, # The minimum value at which items are placed into buckets. Values that are less than the minimum are grouped into a single bucket. If omitted, it is determined by the minimum item value.
26602 &quot;maxValue&quot;: 3.14, # The maximum value at which items are placed into buckets. Values greater than the maximum are grouped into a single bucket. If omitted, it is determined by the maximum item value.
26603 },
26604 },
26605 &quot;columnReference&quot;: { # An unique identifier that references a data source column. # The reference to the data source column that the data reads from.
26606 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26607 },
26608 &quot;sourceRange&quot;: { # Source ranges for a chart. # The source ranges of the data.
26609 &quot;sources&quot;: [ # The ranges of data for a series or domain. Exactly one dimension must have a length of 1, and all sources in the list must have the same dimension with length 1. The domain (if it exists) &amp; all series must have the same number of source ranges. If using more than one source range, then the source range at a given offset must be in order and contiguous across the domain and series. For example, these are valid configurations: domain sources: A1:A5 series1 sources: B1:B5 series2 sources: D6:D10 domain sources: A1:A5, C10:C12 series1 sources: B1:B5, D10:D12 series2 sources: C1:C5, E10:E12
26610 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26611 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26612 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26613 &quot;sheetId&quot;: 42, # The sheet this range is on.
26614 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26615 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26616 },
26617 ],
26618 },
26619 },
26620 &quot;type&quot;: &quot;A String&quot;, # The type of this series. Valid only if the chartType is COMBO. Different types will change the way the series is visualized. Only LINE, AREA, and COLUMN are supported.
26621 &quot;targetAxis&quot;: &quot;A String&quot;, # The minor axis that will specify the range of values for this series. For example, if charting stocks over time, the &quot;Volume&quot; series may want to be pinned to the right with the prices pinned to the left, because the scale of trading volume is different than the scale of prices. It is an error to specify an axis that isn&#x27;t a valid minor axis for the chart&#x27;s type.
26622 &quot;colorStyle&quot;: { # A color value. # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used. If color is also set, this field takes precedence.
26623 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26624 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26625 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26626 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26627 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26628 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26629 },
26630 },
26631 &quot;lineStyle&quot;: { # Properties that describe the style of a line. # The line style of this series. Valid only if the chartType is AREA, LINE, or SCATTER. COMBO charts are also supported if the series chart type is AREA or LINE.
26632 &quot;type&quot;: &quot;A String&quot;, # The dash type of the line.
26633 &quot;width&quot;: 42, # The thickness of the line, in px.
26634 },
26635 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color for elements (such as bars, lines, and points) associated with this series. If empty, a default color is used.
26636 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26637 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26638 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26639 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26640 },
26641 },
26642 ],
26643 &quot;chartType&quot;: &quot;A String&quot;, # The type of the chart.
26644 &quot;headerCount&quot;: 42, # The number of rows or columns in the data that are &quot;headers&quot;. If not set, Google Sheets will guess how many rows are headers based on the data. (Note that BasicChartAxis.title may override the axis title inferred from the header values.)
26645 &quot;lineSmoothing&quot;: True or False, # Gets whether all lines should be rendered smooth or straight by default. Applies to Line charts.
26646 },
26647 &quot;subtitleTextFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The subtitle text format. Strikethrough and underline are not supported.
26648 &quot;bold&quot;: True or False, # True if the text is bold.
26649 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
26650 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
26651 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26652 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26653 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26654 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26655 },
26656 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
26657 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26658 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26659 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26660 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26661 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26662 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26663 },
26664 },
26665 &quot;italic&quot;: True or False, # True if the text is italicized.
26666 &quot;underline&quot;: True or False, # True if the text is underlined.
26667 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
26668 &quot;fontSize&quot;: 42, # The size of the font.
26669 },
26670 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the entire chart. Not applicable to Org charts.
26671 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26672 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26673 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26674 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26675 },
26676 },
26677 &quot;chartId&quot;: 42, # The ID of the chart.
26678 },
26679 ],
26680 &quot;slicers&quot;: [ # The slicers on this sheet.
26681 { # A slicer in a sheet.
26682 &quot;slicerId&quot;: 42, # The ID of the slicer.
26683 &quot;position&quot;: { # The position of an embedded object such as a chart. # The position of the slicer. Note that slicer can be positioned only on existing sheet. Also, width and height of slicer can be automatically adjusted to keep it within permitted limits.
26684 &quot;overlayPosition&quot;: { # The location an object is overlaid on top of a grid. # The position at which the object is overlaid on top of a grid.
26685 &quot;widthPixels&quot;: 42, # The width of the object, in pixels. Defaults to 600.
26686 &quot;offsetYPixels&quot;: 42, # The vertical offset, in pixels, that the object is offset from the anchor cell.
26687 &quot;anchorCell&quot;: { # A coordinate in a sheet. All indexes are zero-based. # The cell the object is anchored to.
26688 &quot;rowIndex&quot;: 42, # The row index of the coordinate.
26689 &quot;columnIndex&quot;: 42, # The column index of the coordinate.
26690 &quot;sheetId&quot;: 42, # The sheet this coordinate is on.
26691 },
26692 &quot;offsetXPixels&quot;: 42, # The horizontal offset, in pixels, that the object is offset from the anchor cell.
26693 &quot;heightPixels&quot;: 42, # The height of the object, in pixels. Defaults to 371.
26694 },
26695 &quot;sheetId&quot;: 42, # The sheet this is on. Set only if the embedded object is on its own sheet. Must be non-negative.
26696 &quot;newSheet&quot;: True or False, # If true, the embedded object is put on a new sheet whose ID is chosen for you. Used only when writing.
26697 },
26698 &quot;spec&quot;: { # The specifications of a slicer. # The specification of the slicer.
26699 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The filtering criteria of the slicer.
26700 &quot;hiddenValues&quot;: [ # Values that should be hidden.
26701 &quot;A String&quot;,
26702 ],
26703 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
26704 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26705 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26706 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26707 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26708 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26709 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26710 },
26711 },
26712 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
26713 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
26714 { # The value of the condition.
26715 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
26716 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
26717 },
26718 ],
26719 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
26720 },
26721 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
26722 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26723 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26724 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26725 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26726 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26727 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26728 },
26729 },
26730 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
26731 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26732 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26733 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26734 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26735 },
26736 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
26737 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26738 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26739 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26740 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26741 },
26742 },
26743 &quot;title&quot;: &quot;A String&quot;, # The title of the slicer.
26744 &quot;dataRange&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The data range of the slicer.
26745 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26746 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26747 &quot;sheetId&quot;: 42, # The sheet this range is on.
26748 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26749 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26750 },
26751 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The text format of title in the slicer.
26752 &quot;bold&quot;: True or False, # True if the text is bold.
26753 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
26754 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
26755 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26756 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26757 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26758 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26759 },
26760 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
26761 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26762 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26763 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26764 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26765 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26766 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26767 },
26768 },
26769 &quot;italic&quot;: True or False, # True if the text is italicized.
26770 &quot;underline&quot;: True or False, # True if the text is underlined.
26771 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
26772 &quot;fontSize&quot;: 42, # The size of the font.
26773 },
26774 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the slicer.
26775 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26776 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26777 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26778 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26779 },
26780 &quot;columnIndex&quot;: 42, # The column index in the data table on which the filter is applied to.
26781 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the slicer. If background_color is also set, this field takes precedence.
26782 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26783 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26784 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26785 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26786 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26787 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26788 },
26789 },
26790 &quot;applyToPivotTables&quot;: True or False, # True if the filter should apply to pivot tables. If not set, default to `True`.
26791 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of title in the slicer. If unspecified, defaults to `LEFT`
26792 },
26793 },
26794 ],
26795 &quot;basicFilter&quot;: { # The default filter associated with a sheet. # The filter on this sheet, if any.
26796 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range the filter covers.
26797 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26798 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26799 &quot;sheetId&quot;: 42, # The sheet this range is on.
26800 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26801 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26802 },
26803 &quot;criteria&quot;: { # The criteria for showing/hiding values per column. The map&#x27;s key is the column index, and the value is the criteria for that column. This field is deprecated in favor of filter_specs.
26804 &quot;a_key&quot;: { # Criteria for showing/hiding rows in a filter or filter view.
26805 &quot;hiddenValues&quot;: [ # Values that should be hidden.
26806 &quot;A String&quot;,
26807 ],
26808 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
26809 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26810 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26811 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26812 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26813 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26814 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26815 },
26816 },
26817 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
26818 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
26819 { # The value of the condition.
26820 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
26821 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
26822 },
26823 ],
26824 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
26825 },
26826 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
26827 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26828 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26829 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26830 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26831 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26832 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26833 },
26834 },
26835 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
26836 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26837 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26838 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26839 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26840 },
26841 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
26842 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26843 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26844 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26845 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26846 },
26847 },
26848 },
26849 &quot;filterSpecs&quot;: [ # The filter criteria per column. Both criteria and filter_specs are populated in responses. If both fields are specified in an update request, this field takes precedence.
26850 { # The filter criteria associated with a specific column.
26851 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
26852 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26853 },
26854 &quot;columnIndex&quot;: 42, # The column index.
26855 &quot;filterCriteria&quot;: { # Criteria for showing/hiding rows in a filter or filter view. # The criteria for the column.
26856 &quot;hiddenValues&quot;: [ # Values that should be hidden.
26857 &quot;A String&quot;,
26858 ],
26859 &quot;visibleBackgroundColorStyle&quot;: { # A color value. # The background fill color to filter by; only cells with this fill color are shown. This field is mutually exclusive with visible_foreground_color, and must be set to an RGB-type color. If visible_background_color is also set, this field takes precedence.
26860 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26861 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26862 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26863 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26864 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26865 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26866 },
26867 },
26868 &quot;condition&quot;: { # A condition that can evaluate to true or false. BooleanConditions are used by conditional formatting, data validation, and the criteria in filters. # A condition that must be true for values to be shown. (This does not override hidden_values -- if a value is listed there, it will still be hidden.)
26869 &quot;values&quot;: [ # The values of the condition. The number of supported values depends on the condition type. Some support zero values, others one or two values, and ConditionType.ONE_OF_LIST supports an arbitrary number of values.
26870 { # The value of the condition.
26871 &quot;relativeDate&quot;: &quot;A String&quot;, # A relative date (based on the current date). Valid only if the type is DATE_BEFORE, DATE_AFTER, DATE_ON_OR_BEFORE or DATE_ON_OR_AFTER. Relative dates are not supported in data validation. They are supported only in conditional formatting and conditional filters.
26872 &quot;userEnteredValue&quot;: &quot;A String&quot;, # A value the condition is based on. The value is parsed as if the user typed into a cell. Formulas are supported (and must begin with an `=` or a &#x27;+&#x27;).
26873 },
26874 ],
26875 &quot;type&quot;: &quot;A String&quot;, # The type of condition.
26876 },
26877 &quot;visibleForegroundColorStyle&quot;: { # A color value. # The foreground color to filter by; only cells with this foreground color are shown. This field is mutually exclusive with visible_background_color, and must be set to an RGB-type color. If visible_foreground_color is also set, this field takes precedence.
26878 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26879 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26880 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26881 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26882 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26883 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26884 },
26885 },
26886 &quot;visibleForegroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to filter by; only cells with this foreground color are shown. Mutually exclusive with visible_background_color.
26887 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26888 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26889 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26890 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26891 },
26892 &quot;visibleBackgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to filter by; only cells with this fill color are shown. Mutually exclusive with visible_foreground_color.
26893 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26894 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26895 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26896 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26897 },
26898 },
26899 },
26900 ],
26901 &quot;sortSpecs&quot;: [ # The sort order per column. Later specifications are used when values are equal in the earlier specifications.
26902 { # A sort order associated with a specific column or row.
26903 &quot;dataSourceColumnReference&quot;: { # An unique identifier that references a data source column. # Reference to a data source column.
26904 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26905 },
26906 &quot;dimensionIndex&quot;: 42, # The dimension the sort should be applied to.
26907 &quot;backgroundColorStyle&quot;: { # A color value. # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color, and must be an RGB-type color. If background_color is also set, this field takes precedence.
26908 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26909 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26910 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26911 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26912 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26913 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26914 },
26915 },
26916 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color, and must be an RGB-type color. If foreground_color is also set, this field takes precedence.
26917 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26918 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26919 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26920 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26921 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26922 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26923 },
26924 },
26925 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color to sort by; cells with this foreground color are sorted to the top. Mutually exclusive with background_color.
26926 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26927 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26928 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26929 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26930 },
26931 &quot;sortOrder&quot;: &quot;A String&quot;, # The order data should be sorted.
26932 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background fill color to sort by; cells with this fill color are sorted to the top. Mutually exclusive with foreground_color.
26933 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26934 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26935 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26936 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26937 },
26938 },
26939 ],
26940 },
26941 &quot;merges&quot;: [ # The ranges that are merged together.
26942 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
26943 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
26944 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
26945 &quot;sheetId&quot;: 42, # The sheet this range is on.
26946 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
26947 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
26948 },
26949 ],
26950 &quot;properties&quot;: { # Properties of a sheet. # The properties of the sheet.
26951 &quot;gridProperties&quot;: { # Properties of a grid. # Additional properties of the sheet if this sheet is a grid. (If the sheet is an object sheet, containing a chart or image, then this field will be absent.) When writing it is an error to set any grid properties on non-grid sheets. If this sheet is a DATA_SOURCE sheet, this field is output only but contains the properties that reflect how a data source sheet is rendered in the UI, e.g. row_count.
26952 &quot;frozenColumnCount&quot;: 42, # The number of columns that are frozen in the grid.
26953 &quot;rowGroupControlAfter&quot;: True or False, # True if the row grouping control toggle is shown after the group.
26954 &quot;frozenRowCount&quot;: 42, # The number of rows that are frozen in the grid.
26955 &quot;hideGridlines&quot;: True or False, # True if the grid isn&#x27;t showing gridlines in the UI.
26956 &quot;rowCount&quot;: 42, # The number of rows in the grid.
26957 &quot;columnGroupControlAfter&quot;: True or False, # True if the column grouping control toggle is shown after the group.
26958 &quot;columnCount&quot;: 42, # The number of columns in the grid.
26959 },
26960 &quot;tabColorStyle&quot;: { # A color value. # The color of the tab in the UI. If tab_color is also set, this field takes precedence.
26961 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
26962 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
26963 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26964 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26965 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26966 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26967 },
26968 },
26969 &quot;sheetId&quot;: 42, # The ID of the sheet. Must be non-negative. This field cannot be changed once set.
26970 &quot;hidden&quot;: True or False, # True if the sheet is hidden in the UI, false if it&#x27;s visible.
26971 &quot;title&quot;: &quot;A String&quot;, # The name of the sheet.
26972 &quot;tabColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the tab in the UI.
26973 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
26974 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
26975 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
26976 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
26977 },
26978 &quot;index&quot;: 42, # The index of the sheet within the spreadsheet. When adding or updating sheet properties, if this field is excluded then the sheet is added or moved to the end of the sheet list. When updating sheet indices or inserting sheets, movement is considered in &quot;before the move&quot; indexes. For example, if there were 3 sheets (S1, S2, S3) in order to move S1 ahead of S2 the index would have to be set to 2. A sheet index update request is ignored if the requested index is identical to the sheets current index or if the requested new index is equal to the current sheet index + 1.
26979 &quot;rightToLeft&quot;: True or False, # True if the sheet is an RTL sheet instead of an LTR sheet.
26980 &quot;dataSourceSheetProperties&quot;: { # Additional properties of a DATA_SOURCE sheet. # Output only. If present, the field contains DATA_SOURCE sheet specific properties.
26981 &quot;dataSourceId&quot;: &quot;A String&quot;, # ID of the DataSource the sheet is connected to.
26982 &quot;columns&quot;: [ # The columns displayed on the sheet, corresponding to the values in RowData.
26983 { # A column in a data source.
26984 &quot;reference&quot;: { # An unique identifier that references a data source column. # The column reference.
26985 &quot;name&quot;: &quot;A String&quot;, # The display name of the column. It should be unique within a data source.
26986 },
26987 &quot;formula&quot;: &quot;A String&quot;, # The formula of the calculated column.
26988 },
26989 ],
26990 &quot;dataExecutionStatus&quot;: { # The data execution status. A data execution is created to sync a data source object with the latest data from a DataSource. It is usually scheduled to run at background, you can check its state to tell if an execution completes There are several scenarios where a data execution is triggered to run: * Adding a data source creates an associated data source sheet as well as a data execution to sync the data from the data source to the sheet. * Updating a data source creates a data execution to refresh the associated data source sheet similarly. * You can send refresh request to explicitly refresh one or multiple data source objects. # The data execution status.
26991 &quot;lastRefreshTime&quot;: &quot;A String&quot;, # Gets the time the data last successfully refreshed.
26992 &quot;errorMessage&quot;: &quot;A String&quot;, # The error message, which may be empty.
26993 &quot;state&quot;: &quot;A String&quot;, # The state of the data execution.
26994 &quot;errorCode&quot;: &quot;A String&quot;, # The error code.
26995 },
26996 },
26997 &quot;sheetType&quot;: &quot;A String&quot;, # The type of sheet. Defaults to GRID. This field cannot be changed once set.
26998 },
26999 &quot;protectedRanges&quot;: [ # The protected ranges in this sheet.
27000 { # A protected range.
27001 &quot;requestingUserCanEdit&quot;: True or False, # True if the user who requested this protected range can edit the protected area. This field is read-only.
27002 &quot;protectedRangeId&quot;: 42, # The ID of the protected range. This field is read-only.
27003 &quot;description&quot;: &quot;A String&quot;, # The description of this protected range.
27004 &quot;warningOnly&quot;: True or False, # True if this protected range will show a warning when editing. Warning-based protection means that every user can edit data in the protected range, except editing will prompt a warning asking the user to confirm the edit. When writing: if this field is true, then editors is ignored. Additionally, if this field is changed from true to false and the `editors` field is not set (nor included in the field mask), then the editors will be set to all the editors in the document.
27005 &quot;editors&quot;: { # The editors of a protected range. # The users and groups with edit access to the protected range. This field is only visible to users with edit access to the protected range and the document. Editors are not supported with warning_only protection.
27006 &quot;domainUsersCanEdit&quot;: True or False, # True if anyone in the document&#x27;s domain has edit access to the protected range. Domain protection is only supported on documents within a domain.
27007 &quot;groups&quot;: [ # The email addresses of groups with edit access to the protected range.
27008 &quot;A String&quot;,
27009 ],
27010 &quot;users&quot;: [ # The email addresses of users with edit access to the protected range.
27011 &quot;A String&quot;,
27012 ],
27013 },
27014 &quot;namedRangeId&quot;: &quot;A String&quot;, # The named range this protected range is backed by, if any. When writing, only one of range or named_range_id may be set.
27015 &quot;unprotectedRanges&quot;: [ # The list of unprotected ranges within a protected sheet. Unprotected ranges are only supported on protected sheets.
27016 { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`.
27017 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
27018 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
27019 &quot;sheetId&quot;: 42, # The sheet this range is on.
27020 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
27021 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
27022 },
27023 ],
27024 &quot;range&quot;: { # A range on a sheet. All indexes are zero-based. Indexes are half open, i.e. the start index is inclusive and the end index is exclusive -- [start_index, end_index). Missing indexes indicate the range is unbounded on that side. For example, if `&quot;Sheet1&quot;` is sheet ID 0, then: `Sheet1!A1:A1 == sheet_id: 0, start_row_index: 0, end_row_index: 1, start_column_index: 0, end_column_index: 1` `Sheet1!A3:B4 == sheet_id: 0, start_row_index: 2, end_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1!A:B == sheet_id: 0, start_column_index: 0, end_column_index: 2` `Sheet1!A5:B == sheet_id: 0, start_row_index: 4, start_column_index: 0, end_column_index: 2` `Sheet1 == sheet_id:0` The start index must always be less than or equal to the end index. If the start index equals the end index, then the range is empty. Empty ranges are typically not meaningful and are usually rendered in the UI as `#REF!`. # The range that is being protected. The range may be fully unbounded, in which case this is considered a protected sheet. When writing, only one of range or named_range_id may be set.
27025 &quot;startColumnIndex&quot;: 42, # The start column (inclusive) of the range, or not set if unbounded.
27026 &quot;startRowIndex&quot;: 42, # The start row (inclusive) of the range, or not set if unbounded.
27027 &quot;sheetId&quot;: 42, # The sheet this range is on.
27028 &quot;endRowIndex&quot;: 42, # The end row (exclusive) of the range, or not set if unbounded.
27029 &quot;endColumnIndex&quot;: 42, # The end column (exclusive) of the range, or not set if unbounded.
27030 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070027031 },
27032 ],
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070027033 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027034 ],
27035 &quot;properties&quot;: { # Properties of a spreadsheet. # Overall properties of a spreadsheet.
27036 &quot;timeZone&quot;: &quot;A String&quot;, # The time zone of the spreadsheet, in CLDR format such as `America/New_York`. If the time zone isn&#x27;t recognized, this may be a custom time zone such as `GMT-07:00`.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027037 &quot;defaultFormat&quot;: { # The format of a cell. # The default format of all cells in the spreadsheet. CellData.effectiveFormat will not be set if the cell&#x27;s format is equal to this default format. This field is read-only.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027038 &quot;borders&quot;: { # The borders of the cell. # The borders of the cell.
27039 &quot;right&quot;: { # A border along a cell. # The right border of the cell.
27040 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
27041 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
27042 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
27043 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
27044 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
27045 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27046 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27047 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27048 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27049 },
27050 },
27051 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
27052 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27053 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27054 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27055 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27056 },
27057 },
27058 &quot;top&quot;: { # A border along a cell. # The top border of the cell.
27059 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
27060 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
27061 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
27062 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
27063 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
27064 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27065 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27066 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27067 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27068 },
27069 },
27070 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
27071 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27072 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27073 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27074 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27075 },
27076 },
27077 &quot;left&quot;: { # A border along a cell. # The left border of the cell.
27078 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
27079 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
27080 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
27081 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
27082 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
27083 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27084 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27085 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27086 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27087 },
27088 },
27089 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
27090 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27091 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27092 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27093 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27094 },
27095 },
27096 &quot;bottom&quot;: { # A border along a cell. # The bottom border of the cell.
27097 &quot;style&quot;: &quot;A String&quot;, # The style of the border.
27098 &quot;width&quot;: 42, # The width of the border, in pixels. Deprecated; the width is determined by the &quot;style&quot; field.
27099 &quot;colorStyle&quot;: { # A color value. # The color of the border. If color is also set, this field takes precedence.
27100 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
27101 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
27102 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27103 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27104 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27105 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27106 },
27107 },
27108 &quot;color&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The color of the border.
27109 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27110 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27111 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27112 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27113 },
27114 },
27115 },
27116 &quot;backgroundColorStyle&quot;: { # A color value. # The background color of the cell. If background_color is also set, this field takes precedence.
27117 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
27118 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
27119 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27120 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27121 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27122 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27123 },
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070027124 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027125 &quot;horizontalAlignment&quot;: &quot;A String&quot;, # The horizontal alignment of the value in the cell.
27126 &quot;wrapStrategy&quot;: &quot;A String&quot;, # The wrap strategy for the value in the cell.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027127 &quot;numberFormat&quot;: { # The number format of a cell. # A format describing how number values should be represented to the user.
27128 &quot;pattern&quot;: &quot;A String&quot;, # Pattern string used for formatting. If not set, a default pattern based on the user&#x27;s locale will be used if necessary for the given type. See the [Date and Number Formats guide](/sheets/api/guides/formats) for more information about the supported patterns.
27129 &quot;type&quot;: &quot;A String&quot;, # The type of the number format. When writing, this field must be set.
27130 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027131 &quot;verticalAlignment&quot;: &quot;A String&quot;, # The vertical alignment of the value in the cell.
27132 &quot;textDirection&quot;: &quot;A String&quot;, # The direction of the text in the cell.
27133 &quot;textFormat&quot;: { # The format of a run of text in a cell. Absent values indicate that the field isn&#x27;t specified. # The format of the text in the cell (unless overridden by a format run).
27134 &quot;bold&quot;: True or False, # True if the text is bold.
27135 &quot;strikethrough&quot;: True or False, # True if the text has a strikethrough.
27136 &quot;foregroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The foreground color of the text.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027137 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27138 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027139 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27140 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027141 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027142 &quot;foregroundColorStyle&quot;: { # A color value. # The foreground color of the text. If foreground_color is also set, this field takes precedence.
27143 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
27144 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
27145 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27146 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27147 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27148 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27149 },
27150 },
27151 &quot;italic&quot;: True or False, # True if the text is italicized.
27152 &quot;underline&quot;: True or False, # True if the text is underlined.
27153 &quot;fontFamily&quot;: &quot;A String&quot;, # The font family.
27154 &quot;fontSize&quot;: 42, # The size of the font.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027155 },
27156 &quot;textRotation&quot;: { # The rotation applied to text in a cell. # The rotation applied to text in a cell
27157 &quot;angle&quot;: 42, # The angle between the standard orientation and the desired orientation. Measured in degrees. Valid values are between -90 and 90. Positive angles are angled upwards, negative are angled downwards. Note: For LTR text direction positive angles are in the counterclockwise direction, whereas for RTL they are in the clockwise direction
27158 &quot;vertical&quot;: True or False, # If true, text reads top to bottom, but the orientation of individual characters is unchanged. For example: | V | | e | | r | | t | | i | | c | | a | | l |
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070027159 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027160 &quot;padding&quot;: { # The amount of padding around the cell, in pixels. When updating padding, every field must be specified. # The padding of the cell.
27161 &quot;bottom&quot;: 42, # The bottom padding of the cell.
27162 &quot;top&quot;: 42, # The top padding of the cell.
27163 &quot;right&quot;: 42, # The right padding of the cell.
27164 &quot;left&quot;: 42, # The left padding of the cell.
27165 },
27166 &quot;backgroundColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # The background color of the cell.
27167 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27168 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27169 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27170 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27171 },
27172 &quot;hyperlinkDisplayType&quot;: &quot;A String&quot;, # How a hyperlink, if it exists, should be displayed in the cell.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070027173 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027174 &quot;locale&quot;: &quot;A String&quot;, # The locale of the spreadsheet in one of the following formats: * an ISO 639-1 language code such as `en` * an ISO 639-2 language code such as `fil`, if no 639-1 code exists * a combination of the ISO language code and country code, such as `en_US` Note: when updating this field, not all locales/languages are supported.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027175 &quot;iterativeCalculationSettings&quot;: { # Settings to control how circular dependencies are resolved with iterative calculation. # Determines whether and how circular references are resolved with iterative calculation. Absence of this field means that circular references result in calculation errors.
27176 &quot;maxIterations&quot;: 42, # When iterative calculation is enabled, the maximum number of calculation rounds to perform.
27177 &quot;convergenceThreshold&quot;: 3.14, # When iterative calculation is enabled and successive results differ by less than this threshold value, the calculation rounds stop.
27178 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027179 &quot;title&quot;: &quot;A String&quot;, # The title of the spreadsheet.
27180 &quot;spreadsheetTheme&quot;: { # Represents spreadsheet theme # Theme applied to the spreadsheet.
27181 &quot;themeColors&quot;: [ # The spreadsheet theme color pairs. To update you must provide all theme color pairs.
27182 { # A pair mapping a spreadsheet theme color type to the concrete color it represents.
27183 &quot;colorType&quot;: &quot;A String&quot;, # The type of the spreadsheet theme color.
27184 &quot;color&quot;: { # A color value. # The concrete color corresponding to the theme color type.
27185 &quot;themeColor&quot;: &quot;A String&quot;, # Theme color.
27186 &quot;rgbColor&quot;: { # Represents a color in the RGBA color space. This representation is designed for simplicity of conversion to/from color representations in various languages over compactness; for example, the fields of this representation can be trivially provided to the constructor of &quot;java.awt.Color&quot; in Java; it can also be trivially provided to UIColor&#x27;s &quot;+colorWithRed:green:blue:alpha&quot; method in iOS; and, with just a little work, it can be easily formatted into a CSS &quot;rgba()&quot; string in JavaScript, as well. Note: this proto does not carry information about the absolute color space that should be used to interpret the RGB value (e.g. sRGB, Adobe RGB, DCI-P3, BT.2020, etc.). By default, applications SHOULD assume the sRGB color space. Note: when color equality needs to be decided, implementations, unless documented otherwise, will treat two colors to be equal if all their red, green, blue and alpha values each differ by at most 1e-5. Example (Java): import com.google.type.Color; // ... public static java.awt.Color fromProto(Color protocolor) { float alpha = protocolor.hasAlpha() ? protocolor.getAlpha().getValue() : 1.0; return new java.awt.Color( protocolor.getRed(), protocolor.getGreen(), protocolor.getBlue(), alpha); } public static Color toProto(java.awt.Color color) { float red = (float) color.getRed(); float green = (float) color.getGreen(); float blue = (float) color.getBlue(); float denominator = 255.0; Color.Builder resultBuilder = Color .newBuilder() .setRed(red / denominator) .setGreen(green / denominator) .setBlue(blue / denominator); int alpha = color.getAlpha(); if (alpha != 255) { result.setAlpha( FloatValue .newBuilder() .setValue(((float) alpha) / denominator) .build()); } return resultBuilder.build(); } // ... Example (iOS / Obj-C): // ... static UIColor* fromProto(Color* protocolor) { float red = [protocolor red]; float green = [protocolor green]; float blue = [protocolor blue]; FloatValue* alpha_wrapper = [protocolor alpha]; float alpha = 1.0; if (alpha_wrapper != nil) { alpha = [alpha_wrapper value]; } return [UIColor colorWithRed:red green:green blue:blue alpha:alpha]; } static Color* toProto(UIColor* color) { CGFloat red, green, blue, alpha; if (![color getRed:&amp;red green:&amp;green blue:&amp;blue alpha:&amp;alpha]) { return nil; } Color* result = [[Color alloc] init]; [result setRed:red]; [result setGreen:green]; [result setBlue:blue]; if (alpha &lt;= 0.9999) { [result setAlpha:floatWrapperWithValue(alpha)]; } [result autorelease]; return result; } // ... Example (JavaScript): // ... var protoToCssColor = function(rgb_color) { var redFrac = rgb_color.red || 0.0; var greenFrac = rgb_color.green || 0.0; var blueFrac = rgb_color.blue || 0.0; var red = Math.floor(redFrac * 255); var green = Math.floor(greenFrac * 255); var blue = Math.floor(blueFrac * 255); if (!(&#x27;alpha&#x27; in rgb_color)) { return rgbToCssColor_(red, green, blue); } var alphaFrac = rgb_color.alpha.value || 0.0; var rgbParams = [red, green, blue].join(&#x27;,&#x27;); return [&#x27;rgba(&#x27;, rgbParams, &#x27;,&#x27;, alphaFrac, &#x27;)&#x27;].join(&#x27;&#x27;); }; var rgbToCssColor_ = function(red, green, blue) { var rgbNumber = new Number((red &lt;&lt; 16) | (green &lt;&lt; 8) | blue); var hexString = rgbNumber.toString(16); var missingZeros = 6 - hexString.length; var resultBuilder = [&#x27;#&#x27;]; for (var i = 0; i &lt; missingZeros; i++) { resultBuilder.push(&#x27;0&#x27;); } resultBuilder.push(hexString); return resultBuilder.join(&#x27;&#x27;); }; // ... # RGB color.
27187 &quot;blue&quot;: 3.14, # The amount of blue in the color as a value in the interval [0, 1].
27188 &quot;red&quot;: 3.14, # The amount of red in the color as a value in the interval [0, 1].
27189 &quot;alpha&quot;: 3.14, # The fraction of this color that should be applied to the pixel. That is, the final pixel color is defined by the equation: pixel color = alpha * (this color) + (1.0 - alpha) * (background color) This means that a value of 1.0 corresponds to a solid color, whereas a value of 0.0 corresponds to a completely transparent color. This uses a wrapper message rather than a simple float scalar so that it is possible to distinguish between a default value and the value being unset. If omitted, this color object is to be rendered as a solid color (as if the alpha value had been explicitly given with a value of 1.0).
27190 &quot;green&quot;: 3.14, # The amount of green in the color as a value in the interval [0, 1].
27191 },
27192 },
27193 },
27194 ],
27195 &quot;primaryFontFamily&quot;: &quot;A String&quot;, # Name of the primary font family.
27196 },
27197 &quot;autoRecalc&quot;: &quot;A String&quot;, # The amount of time to wait before volatile functions are recalculated.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027198 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027199 &quot;dataSourceSchedules&quot;: [ # Output only. A list of data source refresh schedules.
27200 { # Schedule for refreshing the data source. Data sources in the spreadsheet are refreshed within a time interval. You can specify the start time by clicking the Scheduled Refresh button in the Sheets editor, but the interval is fixed at 4 hours. For example, if you specify a start time of 8am , the refresh will take place between 8am and 12pm every day.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027201 &quot;weeklySchedule&quot;: { # A weekly schedule for data to refresh on specific days in a given time interval. # Weekly refresh schedule.
27202 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027203 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027204 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027205 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
27206 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070027207 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027208 &quot;daysOfWeek&quot;: [ # Days of the week to refresh. At least one day must be specified.
27209 &quot;A String&quot;,
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070027210 ],
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027211 },
27212 &quot;refreshScope&quot;: &quot;A String&quot;, # The scope of the refresh. Must be ALL_DATA_SOURCES.
27213 &quot;dailySchedule&quot;: { # A schedule for data to refresh every day in a given time interval. # Daily refresh schedule.
27214 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027215 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027216 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027217 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
27218 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070027219 },
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070027220 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027221 &quot;enabled&quot;: True or False, # True if the refresh schedule is enabled, or false otherwise.
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027222 &quot;monthlySchedule&quot;: { # A monthly schedule for data to refresh on specific days in the month in a given time interval. # Monthly refresh schedule.
27223 &quot;startTime&quot;: { # Represents a time of day. The date and time zone are either not significant or are specified elsewhere. An API may choose to allow leap seconds. Related types are google.type.Date and `google.protobuf.Timestamp`. # The start time of a time interval in which a data source refresh is scheduled. Only `hours` part is used. The time interval size defaults to that in the Sheets editor.
27224 &quot;hours&quot;: 42, # Hours of day in 24 hour format. Should be from 0 to 23. An API may choose to allow the value &quot;24:00:00&quot; for scenarios like business closing time.
27225 &quot;minutes&quot;: 42, # Minutes of hour of day. Must be from 0 to 59.
27226 &quot;seconds&quot;: 42, # Seconds of minutes of the time. Must normally be from 0 to 59. An API may allow the value 60 if it allows leap-seconds.
27227 &quot;nanos&quot;: 42, # Fractions of seconds in nanoseconds. Must be from 0 to 999,999,999.
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070027228 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027229 &quot;daysOfMonth&quot;: [ # Days of the month to refresh. Only 1-28 are supported, mapping to the 1st to the 28th day. At lesat one day must be specified.
27230 42,
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027231 ],
Dmitry Frenkel3e17f892020-10-06 16:46:05 -070027232 },
Yoshi Automation Bot0d561ef2020-11-25 07:50:41 -080027233 &quot;nextRun&quot;: { # Represents a time interval, encoded as a Timestamp start (inclusive) and a Timestamp end (exclusive). The start must be less than or equal to the end. When the start equals the end, the interval is empty (matches no time). When both start and end are unspecified, the interval matches any time. # Output only. The time interval of the next run.
27234 &quot;endTime&quot;: &quot;A String&quot;, # Optional. Exclusive end of the interval. If specified, a Timestamp matching this interval will have to be before the end.
27235 &quot;startTime&quot;: &quot;A String&quot;, # Optional. Inclusive start of the interval. If specified, a Timestamp matching this interval will have to be the same or after the start.
Bu Sun Kim673ec5c2020-11-16 11:05:03 -070027236 },
27237 },
Yoshi Automation Botc2228be2020-11-24 15:48:03 -080027238 ],
27239 }</pre>
Jon Wayne Parrott0a471d32016-05-19 10:54:38 -070027240</div>
27241
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